Difference between revisions of "TB Services"

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====== [[Image:|thumb|{| style="border-spacing:0;width:16.21cm;" |- | align=center style="border-top:none;border-bottom:none;border-left:none;border-right:2.25pt solid #365f91;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;" | | colspan="2" style="border-top:none;border-bottom:none;border-left:2.25pt solid #365f91;border-right:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;" | <div style="color:#4f81bd;">IUSS HEALTH FACILITY GUIDES</div> TB Services [V.3] 28 August 2015 <div style="color:#548dd4;">Task Team: A:16</div> |- | colspan="2" style="border:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;" | Supported by: | align=center style="border:none;padding-top:0.381cm;padding-bottom:0.381cm;padding-left:0.203cm;padding-right:0.203cm;" | |- |}]]Document tracking ======
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='''PART A -''' '''Policy and service context'''=
  
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==Legislation, policies and international guidance==
  
{| style="border-spacing:0;width:16.028cm;"
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===Infection Prevention and Control Legislation===
|-
 
| style="background-color:#ffffff;border:1pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;" | '''Version '''
 
| style="background-color:#ffffff;border-top:1pt solid #00000a;border-bottom:1pt solid #00000a;border-left:none;border-right:1pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;" | '''Date'''
 
| style="background-color:#ffffff;border-top:1pt solid #00000a;border-bottom:1pt solid #00000a;border-left:none;border-right:1pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;" | '''Name'''
 
|-
 
| style="background-color:#ffffff;border-top:none;border-bottom:1pt solid #00000a;border-left:1pt solid #00000a;border-right:1pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;" | ''Internal review''
 
| style="background-color:#ffffff;border-top:none;border-bottom:1pt solid #00000a;border-left:none;border-right:1pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;" | ''December 2012''
 
| style="background-color:#ffffff;border-top:none;border-bottom:1pt solid #00000a;border-left:none;border-right:1pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;" | ''Thabang Molefi''
 
|-
 
| style="background-color:#ffffff;border-top:none;border-bottom:1pt solid #00000a;border-left:1pt solid #00000a;border-right:1pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;" | ''Internal review''
 
| style="background-color:#ffffff;border-top:none;border-bottom:1pt solid #00000a;border-left:none;border-right:1pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;" | ''March 2013''
 
| style="background-color:#ffffff;border-top:none;border-bottom:1pt solid #00000a;border-left:none;border-right:1pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;" | ''Tobias van Reenen''
 
|-
 
| style="background-color:#ffffff;border-top:none;border-bottom:1pt solid #00000a;border-left:1pt solid #00000a;border-right:1pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;" | ''Distributed to NDoH for comment''
 
| style="background-color:#ffffff;border-top:none;border-bottom:1pt solid #00000a;border-left:none;border-right:1pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;" | ''October 2013''
 
| style="background-color:#ffffff;border-top:none;border-bottom:1pt solid #00000a;border-left:none;border-right:1pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;" | ''Lindiwe Mvusi''
 
|-
 
| style="background-color:#ffffff;border-top:none;border-bottom:1pt solid #00000a;border-left:1pt solid #00000a;border-right:1pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;" | ''Revised ''
 
| style="background-color:#ffffff;border-top:none;border-bottom:1pt solid #00000a;border-left:none;border-right:1pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;" | ''March 2014''
 
| style="background-color:#ffffff;border-top:none;border-bottom:1pt solid #00000a;border-left:none;border-right:1pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;" | ''Peta de Jager''
 
|-
 
| style="background-color:#ffffff;border-top:none;border-bottom:0.5pt solid #00000a;border-left:1pt solid #00000a;border-right:1pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;" | ''Edited''
 
| style="background-color:#ffffff;border-top:none;border-bottom:0.5pt solid #00000a;border-left:none;border-right:1pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;" | ''18 March 2014''
 
| style="background-color:#ffffff;border-top:none;border-bottom:0.5pt solid #00000a;border-left:none;border-right:1pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;" | ''Beverley van Reenen''
 
|-
 
| style="background-color:#ffffff;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;" | ''References''
 
  
 +
<div style="color:#00000a;">The National Infection Prevention and Control Policy and Strategy makes specific reference to certain Acts and their relevant regulations, which bear relevance to the development and implementation of these health facility guidelines. These are:
  
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*<span style="color:#00000a;">Constitution</span><span style="color:#00000a;">'' of the Republic of South Africa, 1996''</span>. <span style="color:#00000a;">s.2,24,27,36&39.</span>
 +
*<span style="color:#00000a;">''The National Health Act 2003''</span>. <span style="color:#00000a;">(c.61). Cape Town South Africa: Government Gazette.</span>
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*<span style="color:#00000a;">''The Occupational Health and Safety Act 1993''</span>. <span style="color:#00000a;">s.8(1).</span> <span style="color:#00000a;">Cape Town South Africa: Government Gazette.</span>
  
| style="background-color:#ffffff;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;" | ''26 March 2014''
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Department of Labour, 2001. <span style="color:#00000a;">''Regulations for hazardous biological agents''</span>. (Government notice No. R. 1390 of the Occupational Health and Safety Act, 1993. s.43). Pretoria South Africa: Government Gazette
| style="background-color:#ffffff;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;" | ''Tichaona Kumirai''
 
|-
 
| style="background-color:#ffffff;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;" | ''Front pages updated Proposal V 2''
 
| style="background-color:#ffffff;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;" | ''13 May 2014''
 
| style="background-color:#ffffff;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;" | ''Peta de Jager''
 
|-
 
| style="background-color:#ffffff;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;" | ''Proposal V2 Formatting''
 
| style="background-color:#ffffff;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;" | ''2 July 2014''
 
| style="background-color:#ffffff;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;" | ''Sheldon Bole''
 
|-
 
| style="background-color:#ffffff;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;" | ''V3, sputum booth revised, UVGI and PPE sections updated''
 
| style="background-color:#ffffff;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;" | ''28 August 2015''
 
| style="background-color:#ffffff;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;" | ''Tobias van Reenen''
 
|-
 
|}
 
  
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Department of Health, 2003. <span style="color:#00000a;">''Regulations relating to the application of the hazard analysis and critical control point system (HACCP system). ''</span><span style="color:#00000a;">(Government notice No. R. 908 of the Foodstuffs, Cosmetics and Disinfectant Act, 1972. (c.54)). Cape Town South Africa: Government Gazette.</span>
  
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*<span style="color:#00000a;">''The Environmental Conservation Act 1989''</span>. <span style="color:#00000a;">(c.73). Cape Town South Africa: Government Gazette.</span>
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*<span style="color:#00000a;">''The Foodstuffs, Cosmetic and Disinfectants Act 1972.''</span> <span style="color:#00000a;">(c.45). Cape Town South Africa: Government Gazette.</span>Building legislation
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</div><div style="color:#00000a;">The following legislation and regulations impact and provide guidance on the provision and design of healthcare facilities as above:
  
{| style="border-spacing:0;width:16.191cm;"
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*<span style="color:#00000a;">''The Pharmacy Act 53 of 1974.''</span> <span style="color:#00000a;">(c.53). Cape Town South Africa: Government Gazette.</span>
|-
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*<span style="color:#00000a;">''The National Environmental Management Act 1998.''</span> <span style="color:#00000a;">(c.107).</span> <span style="color:#00000a;">Cape Town South Africa: Government Gazette.</span>
| align=center style="border-top:0.5pt solid #00000a;border-bottom:0.5pt solid #00000a;border-left:none;border-right:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;" | '''INFORMATION'''
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*<span style="color:#00000a;">''Building Regulations and Building Standards Act 1977.''</span> <span style="color:#00000a;">(c.103). Cape Town South Africa: Government Gazette.</span>
| align=center style="border-top:0.5pt solid #00000a;border-bottom:0.5pt solid #00000a;border-left:none;border-right:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;" | '''NOTES'''
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*<span style="color:#00000a;">South African Bureau of Standards (SABS), 1990.</span> <span style="color:#00000a;">''SANS 10400:1990 Code of practice for the application of the national building regulations.''</span><span style="color:#00000a;">Pretoria South Africa: SABS Standards Division.</span>
|-
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*<span style="color:#00000a;">''Promotion of Equality and Prevention of Unfair Discrimination Act 2000.''</span> <span style="color:#00000a;">(c.4). Cape Town South Africa: Government Gazette.</span>
| style="border-top:0.5pt solid #00000a;border-bottom:0.5pt solid #00000a;border-left:none;border-right:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;" | Form:
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</div>
| style="border-top:0.5pt solid #00000a;border-bottom:0.5pt solid #00000a;border-left:none;border-right:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;" | Health facility guides
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===Infection prevention and control and TB management policy and guidelines===
|-
 
| style="border-top:0.5pt solid #00000a;border-bottom:0.5pt solid #00000a;border-left:none;border-right:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;" | Status:
 
| style="border-top:0.5pt solid #00000a;border-bottom:0.5pt solid #00000a;border-left:none;border-right:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;" | Proposal V.2, ''2 July 2014; Gazetted, 30 June 2014''
 
|-
 
| style="background-color:#fabf8f;border-top:0.5pt solid #00000a;border-bottom:0.5pt solid #00000a;border-left:0.5pt solid #00000a;border-right:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;" | '''Title:'''
 
| style="background-color:#fabf8f;border-top:0.5pt solid #00000a;border-bottom:0.5pt solid #00000a;border-left:none;border-right:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;" | '''TB services'''
 
|-
 
| style="background-color:#ffffff;border-top:0.5pt solid #00000a;border-bottom:0.5pt solid #00000a;border-left:none;border-right:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;" | Original Title:
 
| style="background-color:#ffffff;border-top:0.5pt solid #00000a;border-bottom:0.5pt solid #00000a;border-left:none;border-right:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;" | TB services
 
|-
 
| style="background-color:#ffffff;border-top:0.5pt solid #00000a;border-bottom:0.5pt solid #00000a;border-left:none;border-right:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;" | Description:
 
| style="background-color:#ffffff;border-top:0.5pt solid #00000a;border-bottom:0.5pt solid #00000a;border-left:none;border-right:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;" |
 
|-
 
| style="background-color:#ffffff;border-top:0.5pt solid #00000a;border-bottom:0.5pt solid #00000a;border-left:none;border-right:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;" | Reference:
 
| style="background-color:#ffffff;border-top:0.5pt solid #00000a;border-bottom:0.5pt solid #00000a;border-left:none;border-right:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;" | CSIR 59C1119 A :16 - 001
 
|-
 
| style="background-color:#ffffff;border-top:0.5pt solid #00000a;border-bottom:0.5pt solid #00000a;border-left:none;border-right:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;" | Authors:
 
| style="background-color:#ffffff;border-top:0.5pt solid #00000a;border-bottom:0.5pt solid #00000a;border-left:none;border-right:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;" | IUSS N and S task team A:16
 
|-
 
| style="background-color:#ffffff;border-top:0.5pt solid #00000a;border-bottom:0.5pt solid #00000a;border-left:none;border-right:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;" | Stakeholders:
 
| style="background-color:#ffffff;border-top:0.5pt solid #00000a;border-bottom:0.5pt solid #00000a;border-left:none;border-right:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;" | National Department of Health, Provincial Departments of Health and Public Works
 
|-
 
| style="background-color:#ffffff;border-top:0.5pt solid #00000a;border-bottom:0.5pt solid #00000a;border-left:none;border-right:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;" | Endorsements:
 
| style="background-color:#ffffff;border-top:0.5pt solid #00000a;border-bottom:0.5pt solid #00000a;border-left:none;border-right:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;" | The document is endorsed by the CSIR
 
|-
 
| style="background-color:#ffffff;border-top:0.5pt solid #00000a;border-bottom:0.5pt solid #00000a;border-left:none;border-right:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;" | Endorsements pending:
 
| style="background-color:#ffffff;border-top:0.5pt solid #00000a;border-bottom:0.5pt solid #00000a;border-left:none;border-right:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;" | Submitted to the IUSS Norms and Standards Working Group for endorsement
 
|-
 
| style="background-color:#ffffff;border-top:0.5pt solid #00000a;border-bottom:0.5pt solid #00000a;border-left:none;border-right:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;" | Supersedes:
 
| style="background-color:#ffffff;border-top:0.5pt solid #00000a;border-bottom:0.5pt solid #00000a;border-left:none;border-right:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;" | N/A
 
|-
 
|}
 
  
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*<span style="color:#00000a;">National</span><span style="color:#00000a;"> Department of Health (NDoH), 2007.</span> <span style="color:#00000a;">''The draft national infection prevention and control policy for TB, MDRTB and XDRTB.''</span> <span style="color:#00000a;">South Africa: NDoH.</span>
  
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National Department of Health, 2007. <span style="color:#00000a;">''Management of drug-resistant tuberculosis: Policy guidelines''</span>. [pdf] South Africa: NDoH. Available at: http://www.search.gov.za [Accessed 26 March 2014].<div style="color:#00000a;">National Department of Health, n.d. <span style="color:#00000a;">''Tuberculosis strategic plan for South Africa, 2007-2011.''</span> [pdf] South Africa: NDoH. Available at: http://www.search.gov.za/info/search.jsp. [Accessed 26 March 2014].
  
 +
===South African building practice policy and guidelines===
  
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*The South African Pharmacy Council, 2004. ''Good pharmacy practice. ''(Board notice 129). Cape Town South Africa: Government Gazette.
 +
</div>
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===International design guidance===
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South Africa faces one of the most devastating TB epidemics in the world. TB – with TB/HIV/Aids – is the leading cause of death
  
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*<span style="color:#00000a;">American Society of Heating, Refrigerating and Air-Conditioning Engineers (ASHRAE), 1999.</span> <span style="color:#00000a;">''ANSI/ASHRAE standard 52.2-1999 Method of testing general ventilation air cleaning devices for removal efficiency by particle size.''</span> <span style="color:#00000a;">Atlanta USA: ASHRAE.</span>
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*<span style="color:#00000a;">American Society of Heating, Refrigerating and Air-Conditioning Engineers (ASHRAE), 1989.</span> <span style="color:#00000a;">''ASHRAE standard 62 Ventilation for acceptable indoor air quality.''</span> <span style="color:#00000a;">Atlanta USA: ASHRAE.</span>
 +
*<span style="color:#00000a;">American Society of Heating, Refrigerating and Air-Conditioning Engineers (ASHRAE), 2003.</span> <span style="color:#00000a;">''HVAC design manual for hospitals and clinics.''</span> <span style="color:#00000a;">Atlanta USA: ASHRAE.</span>
  
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Chartered Institution of Building Services Engineers (CIBSE), 1997. <span style="color:#00000a;">''CIBSE applications manual AM10 natural ventilation in non-domestic buildings.''</span> London: CIBSE.<div style="color:#00000a;">Chartered Institution of Building Services Engineers (CIBSE), 2000. <span style="color:#00000a;">''CIBSE applications manual AM13 mixed mode ventilation.''</span> <span style="color:#00000a;">London: CIBSE.</span></div><span style="color:#00000a;">American Society of Heating, Refrigerating and Air-Conditioning Engineers (ASHRAE),</span>
  
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*<span style="color:#00000a;">American Society of Heating, Refrigerating and Air-Conditioning Engineers (ASHRAE), 2009</span>. <span style="color:#00000a;">''ANSI/ASHRAE/ASHE standard 170-2008 ventilation of health care facilities.''</span> <span style="color:#00000a;">Atlanta USA: ASHRAE.</span>
 +
*QASA, “Know Your Rights” [Accessibility & the Built Environment]
 +
*<span style="color:#00000a;">Department of Health and Human Services (Centre for Disease Control and Prevention), 2003.</span> <span style="color:#00000a;">''Environmental control for tuberculosis: Basic upper-room ultraviolet germicidal irradiation guidelines for healthcare setting. ''</span><span style="color:#00000a;">USA: DHHS.</span>
 +
*<span style="color:#00000a;">World Health Organisation (WHO), 2009a.</span> <span style="color:#00000a;">''Natural ventilation for infection control in health-care settings.''</span> <span style="color:#00000a;">Geneva Switzerland: WHO</span>
 +
*<span style="color:#00000a;">World Health Organisation (WHO), 2009b.</span> <span style="color:#00000a;">''WHO policy on TB infection control in health-care facilities, congregate settings and households''</span>. <span style="color:#00000a;">Geneva Switzerland: WHO</span>
  
====== <span style="color:#0070c0;">Accessing of these guides</span> ======
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==Service context==
  
This publication is received by the National Department of Health (NDoH), IUSS Steering Committee Chairman, Dr Massoud Shaker and Acting Cluster Manager: Health Facilities and Infrastructure Management, Mr Ndinannyi Mphaphuli. Feedback is welcome.
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<div style="color:#00000a;">South Africa faces one of the most devastating ''Mycobacterium ''tuberculosis (TB) epidemics in the world, especially in terms of number of TB cases per capita and the total numbers of drug-resistant (DR) TB cases with a prevalence of 450/100 000. It has the third-highest incidence of TB globally (WHO, 2013, p.11). TB, together with HIV/Aids, is South Africa’s leading cause of morbidity and mortality. Furthermore, healthcare workers are at six or more times increased risk of acquiring TB, compared to the background population (Joshi, et al., 2006).
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The WHO reports that TB treatment success is low and treatment default rates and mortality are high. The high default from TB treatment by patients represents a major problem which, in conjunction with other factors, has led to the emergence of drug-resistant TB (DR TB). Transmission of TB, multi-drug-resistant TB (MDR TB) and extreme (or extensively) drug-resistant TB (XDR TB) in communities and congregate settings has been documented in several studies, frequently linked to HIV infection and affecting vulnerable groups such as children. MDR and XDR TB linked with HIV therefore have the potential to result in an uncontrollable epidemic with devastating economic and social consequences. The epidemiological burden co-infection in South Africa is currently estimated to be in excess of 70% of TB and HIV (WHO, 2009b).<sup> </sup>Provision of poorly designed, maintained and operated infrastructure can exacerbate transmission. Well-designed and well-maintained facilities can reduce the risk of TB infection.
  
The CSIR and the NDoH retain the moral rights conferred upon them as author by section 20(1) of the Copyright Act, No. 98 of 1978, as amended. Use of text, figures or illustrations from this report in any future documentation, media reports, publications, competition entries and advertising or marketing material is solely at the discretion of the '''Health Infrastructure Norms Advisory Committee''' and should clearly reference the source. This publication may not be altered without the express permission of the '''Health Infrastructure Norms Advisory Committee'''. This document (or its updates) is available freely at [http://www.iussonline.co.za www.iussonline.co.za]<span style="color:#0000ff;"> </u></span>or the forthcoming Department webportal.
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''M. tuberculosis'' is an infectious disease, and is transmitted from person to person exclusively by the airborne route, usually through coughing by a patient with active pulmonary TB. MDR TB is a consequence of human error resulting from combinations of the management of drug supply, patient management, chemotherapy prescription and patient adherence. Treating MDR TB takes longer and requires drugs that are more toxic, more expensive (up to 100 times the cost of treating a drug-susceptible TB patient) and generally less effective, particularly in persons with HIV infection.
  
==== <span style="color:#0070c0;">Application and development process</span> ====
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The problem of drug resistance in TB has been compounded by the emergence of XDR TB. Patients with XDR TB are extremely difficult and expensive to treat, with mortality rates between 50 and 70% (CDC, undated).<sup> </sup>In XDR TB patients with HIV co-infection, mortality rates, though improving, remain at about 90% (Neel, et al., 2010).
  
These IUSS '''voluntary standard'''/ '''guidance documents '''have''' '''been prepared as national Guidelines, Norms and Standards by the National Department of Health for the benefit of all South Africans. They are for use by those involved in the procurement, design, management and commissioning of public healthcare infrastructure. It may also be useful information and reference to private sector healthcare providers.
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Owing to the District Health system, patients are intended to, and generally do, enter the healthcare system via primary healthcare services - namely the clinics and community health centres (CHCs) and private general practitioners (GPs). It is in these settings that untreated, undiagnosed infectious individuals will inevitably come into contact with susceptible individuals and the risk of transmission is produced. With the introduction of the NHI, the profile of risk in former “private” facilities may change as demographic shifts in access to these services occur. It is therefore in the interest of public health that private-sector facilities are designed, constructed and operated to meet airborne infection control requirements.
  
Use of the guidance in this documentation does not dissolve professional responsibilities of the implementing parties, and it remains incumbent on the relevant authorities and professionals to ensure that these are applied with due diligence, and where appropriate, deviations processes are exercised.
+
The National Department of Health (NDoH) Primary Healthcare Directorate advocates the WHO-endorsed approach in the public sector to integrated service provision (WHO, 2011). In the context of this document, this means that individuals seeking care are to receive all appropriate services and interventions at a “one-stop shop”. The common practice of provision of service by diagnosis within a facility (e.g. separation of TB, HIV/Aids, diabetes) or by vertical programmes (different clinical activities on different days) does not support integration of services. This implies that, as far as it is safe and reasonable, most services should be available in most patient/client contact spaces. The integration of services should not subject healthcare workers, clients or the public to undue exposure to airborne pathogens. In particular, when reconfiguring services in existing facilities, due diligence must be paid in ensuring that designs meet required standards for TB infection control.
  
The development process adopted by the IUSS team was to consolidate information from a range of sources including local and international literature, expert opinion, practice and expert group workshop/s into a first level '''discussion status''' document. This was then released for public comment through the project website, as well as national and provincial channels. Feedback and further development was consolidated into a second level '''development status''' document which again was released for comment and rigorous technical review. Further feedback was incorporated into '''proposal status''' documents and formally submitted to the National Department of Health. Once signed off, the documents have been '''gazetted,''' at which stage documents reach '''approved status'''.
+
Most TB patients will access services at the primary healthcare level and will require access on site to '''integrated''' services including, but not limited to:
  
At all development stages documents may go through various drafts and will be assigned a version number and date. The National Department of Health will establish a '''Health Infrastructure Norms Advisory Committee,''' which will be responsible for the periodic review and formal update of documents and tools. Documents and tools should therefore always be retrieved from the website repository [http://www.iussonline.co.za/ www.iussonline.co.za] or Department webportal (forthcoming) to ensure that the latest version is being used.
+
*clinical assessment (consulting room with examination facilities, clinical scale);
 +
*safe facilities for sample (sputum) collection;
 +
*nutrition;
 +
*psychosocial services (counselling); and
 +
*pharmacy dispensary for chronic medication.
 +
</div>
 +
In addition, on- or off-site access to the following services is required
  
The guidelines are for public reference information and for application by Provincial Departments of Health in the planning and implementation of public sector health facilities. The approved guidelines will be applicable to the planning, design and implementation of all new public-sector building projects (including additions and alterations to existing facilities). Any deviations from the voluntary standards&nbsp;are to&nbsp;be motivated during the Infrastructure Delivery Management Systems (IDMS) gateway approval process. '''The guidelines should not be seen as necessitating the alteration and upgrading of any existing healthcare facilities'''.  
+
*laboratory services (microscopy, culture, GeneXpert, for drug sensitivity), and
 +
*radiology.
  
==== Acknowledgements ====
+
For a quick reference to primary healthcare services for uncomplicated building projects consult [https://iussonline.co.za/norms-standards/clinical-services/ IUSS:GNS Primary Healthcare].<div style="color:#00000a;">The majority of TB patients will be able to be treated in outpatient mode, with community-based adherence support and regular check-ups at the facility, and regular collection of chronic medication. A small number of patients, such as those who are severely ill, have more than one health concern (co-morbidity), or who are highly infectious may be admitted voluntarily to inpatient care in healthcare facilities. This may be within the general hospital population, in dedicated TB wards or in specialised dedicated facilities.
 +
Evidence suggests that drug-susceptible TB and MDR TB, when diagnosed and under treatment, become rapidly less infectious (Dharmadhikari, forthcoming). This means that, after as little as 24 hours on '''appropriate''' treatment, TB patients - and even MDR patients - can be regarded as and accommodated with the non-infectious population. No special facilities are required for these patients (if they are short-term patients) and they can be accommodated in accordance with IUSS norms and standards (Refer to [https://iussonline.co.za/norms-standards/clinical-services/ IUSS:GNS Adult inpatient services]).
  
<div style="color:#00000a;">This publication has been funded by the NDoH and CDC (Funding number U2G/PS002710) .'' ''Acknowledgements to prior work by Geoff Abbott and Dr Sidney Parsons.</div>
+
Patients recently enrolled on treatment (<24hours) who are suspected of having XDR, confirmed XDR patients, patients who interrupt treatment, and complicated cases may be considered infectious and negative-pressure isolation is strongly recommended - or, if not possible, at least patient management by respiratory isolation or, if that is not possible, by patient cohorting (patient management by clustering patients with most similar diagnoses).
  
<div style="color:#00000a;">This work is based on and advances previous work done for the Department of Transport and Public Works for the Western Cape and The Global Fund. </div>
+
The number of DR TB cases in South Africa increased from 10 085 in 2011 to 15&nbsp;419 in 2012 (WHO, 2013, p.52). This is largely due to intensified case finding and investment in laboratory services. However, it represents only a portion of the estimated cases (WHO, 2013).
  
<div style="color:#00000a;">'''IUSS N and S task team A:16 '''Tobias van Reenen, Peta de Jager, Jako Nice, Faatiema Salie, Katekani Ngobeni, Thabang Molefi.</div>
+
Since 2010 the SA National Department of Health has adopted a policy of decentralised management of Multi Drug-resistant TB. In addition to outpatient services, there is a requirement for inpatient hospital facilities:
  
==== Reviewed by: ====
+
*for all types of TB patients (pulmonary, extra-pulmonary, etc.) requiring acute treatment for TB or other comorbidities
 +
**within patient populations of general hospitals,
 +
**In dedicated wards at general hospitals for acute episodes, and
 +
**at specialised hospitals (long-term accommodation) for sub-acute and palliative care for patients who are not best served by community-based care, for various reasons.
 +
</div>
 +
Inpatient beds for TB services have frequently been provided by converting old wards and sanatoria as a quick solution to address at least part of the pressing need. In many instances building infrastructure has been modified or retrofitted with the intention of making it suitable. However, because beds are provided in this reactive way, the infrastructure is frequently poorly aligned with current best infection-prevention and ‑control practice and patient-centred care.<div style="color:#00000a;">South African healthcare workers are increasingly becoming aware of the need to implement and manage infection-control measures for preventing the spread of infectious diseases in healthcare settings; however, due to lack of resources, inadequate facility design and the lack of environmental controls, the means for achieving adequate infection-prevention and -control are not always found.
 +
There have been both legal and ethical challenges posed to TB hospitalisation (Singh, Upshur and Padayatchi, 2007; London, 2009). Media have reported incidents of patients rioting and absconding (Dugger)<sup> </sup>which attested to the unpopularity of the policy and the unsuitability of the arrangements, including - though by no means limited to – the building infrastructure provided.
  
 +
The NDoH has subsequently recognised the need to provide recreational, occupational and educational facilities for patients that require specialised long-term DR TB treatment (NDoH, 2007b, p.25). Social support should also be provided for all patients and their families whilst hospitalised. In the past TB facilities were simply not designed or built to address these needs. This must be recognised when assessing precedent or in identifying case study examples [[File:Centralised management of MDR TB.jpg|none|thumb|555x555px|Figure 1: Centralised management of MDR TB]]Consequently the National Department of Health expanded its approach in adopting a multi-faceted decentralisation policy in future according to the following health framework for DR TB management (see ''Decentralised Management of Multi Drug Resistant TB – a Policy Framework for South Africa''). According to this framework (see Figure 3), for a successful decentralised MDR TB programme, the following should be provided in inpatient care facilities in order to ensure adequate infrastructure and infection control measures:
  
{| style="border-spacing:0;width:16.302cm;"
+
*Well ventilated consulting room
|- style="border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;"
+
*Well ventilated waiting area
| style="color:#00000a;" |
+
*Well ventilated rooms that can accommodate from one to six patients
| style="color:#00000a;" |
+
*Distance between beds not less than 1.2 m
| style="color:#00000a;" |
+
*Administration control measures of infection control in place
| style="color:#00000a;" |
+
*UVGI lights and extractors fans where possible
| style="color:#00000a;" |
+
*Respiratory protection tools available: surgical masks, N95 respirators
|- style="border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;"
 
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|- style="border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;"
 
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|- style="border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;"
 
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|-
 
|}
 
  
 +
These policy requirements will go some way to addressing the twin objectives of patient-centred care and effective infection prevention and control in the emerging pandemic. However, there are additional planning, design, management and maintenance considerations to reach best practice standards and these are discussed in detail below.
 +
</div>
  
= {{anchor|Toc428538807}} Contents =
+
='''Understanding transmission to manage risk'''=
  
[[#Toc428538807|Contents]][[#Toc428538807|1]]
+
==Transmission of M. Tuberculosis==
  
[[#Toc428538808|List of Figures]][[#Toc428538808|4]]
+
<div style="color:#00000a;">In healthcare settings, physicians, nurses, general hospital staff, fellow patients and visitors are at a high risk for TB infection because they share the same breathing space as infectious patients: the transmission of TB disease is through the airborne route. Varicella-zoster virus, measles virus, and smallpox virus can also be transmitted by the airborne route, and mitigated with the means described in this document, but do not currently pose a comparable public health concern.
 +
When the droplets produced by an infected person are inhaled by a susceptible person, TB may be contracted. However, this alone does not seem to account for observable instances of transmission. There is a widely accepted theory - the droplet-nucleus hypothesis - that infectious droplet nuclei containing tubercle bacilli may remain suspended in air for prolonged periods of time, potentially long after the infector has left the room. This leads to a high risk of infection in congregate settings (shared spaces). This risk cannot be eliminated. However, expert consensus is that with adequate ventilation or air purification the risk can be reduced. Here is a brief explanation for the transmission theory<sup> </sup>(Riley and O’Grady, 1961).
  
[[#Toc428538809|List of Tables]][[#Toc428538809|5]]
+
The bacterium, ''M.&nbsp;tuberculosis'', becomes aerosolised in small droplets of water or bodily fluid when a person with the disease of the lung coughs, sneezes, laughs or sings. Many of the smallest respiratory droplets dry into “droplet nuclei” and become airborne following room air currents is described. Infection can occur when the droplet nuclei containing the bacterium are inhaled [[File:Coughing generating aerosols.jpg|none|thumb|222x222px|Figure 2: Coughing generating aerosols - Source Jennison 1942]]''M.&nbsp;tuberculosis'' infection is different from TB disease. People having the infection without disease (latent TB) have been infected by the ''M.&nbsp;tuberculosis'' bacterium. They are not symptomatic because their body’s immune system has encapsulated the infectious material in the lung, where it is held dormant. They cannot spread the bacterium or disease to others when in this phase. However, people with infection may reactivate a dormant focus in the future, leading to disease.
 +
</div>The infection turns to disease when the body can no longer contain the infectious material in the lung. The infection then spreads, usually within the lung (where it is called pulmonary TB) and possibly to other areas of the body. This spread usually shows up as chronic respiratory symptoms such as cough and fever. People with TB disease of the lungs can therefore transmit the infectious bacterium.
  
[[#Toc428538810|Overview]][[#Toc428538810|6]]
+
===Disease status===
 +
<div style="color:#00000a;">TB patient status could at any point:
  
[[#Toc428538811|Colours Legend]][[#Toc428538811|7]]
+
*be actively diseased and infectious;
 +
*be simultaneously infected by more than one strain;
 +
*be diseased and undergoing treatment;
 +
*be recovered after undergoing therapy;
 +
*be developing resistance while undergoing therapy;
 +
*have latent disease;
 +
*have relapsed into disease;
 +
*be re-infected;
 +
*be immune; or
 +
*have additional related/ unrelated medical conditions (co-morbidity)</div>
 +
Determining the current status of any given patient or transition times between statuses is problematic (given lags in diagnosis, individual patient responses etc.).
  
[[#Toc428538812|PART A -]][[#Toc428538812|]][[#Toc428538812|Policy and service context]][[#Toc428538812|8]]
+
Table 1: Drug resistance TB (CDC, 2010, slide number 28)
 +
{| style="border-spacing:0;width:14.87cm;"
 +
|-
 +
| style="background-color:#009999;border-top:1.5pt solid #000001;border-bottom:0.5pt solid #000001;border-left:1.5pt solid #000001;border-right:0.5pt solid #000001;padding:0cm;" |'''Mono-resistant'''
 +
| style="border-top:1.5pt solid #000001;border-bottom:0.5pt solid #000001;border-left:0.5pt solid #000001;border-right:1.5pt solid #000001;padding:0cm;" |Resistant to any one TB treatment drug
 +
|-
 +
| style="background-color:#009999;border-top:0.5pt solid #000001;border-bottom:0.5pt solid #000001;border-left:1.5pt solid #000001;border-right:0.5pt solid #000001;padding:0cm;" |'''Poly-resistant'''
 +
| style="border-top:0.5pt solid #000001;border-bottom:0.5pt solid #000001;border-left:0.5pt solid #000001;border-right:1.5pt solid #000001;padding:0cm;" |Resistant to at least any 2 TB drugs (but not both isoniazid and rifampin)
 +
|-
 +
| style="background-color:#009999;border-top:0.5pt solid #000001;border-bottom:0.5pt solid #000001;border-left:1.5pt solid #000001;border-right:0.5pt solid #000001;padding:0cm;" |'''Multidrug-resistant '''
  
[[#Toc428538813|1.]][[#Toc428538813|]][[#Toc428538813|Legislation, policies and international guidance]][[#Toc428538813|8]]
+
'''(MDR TB)'''
 +
| style="border-top:0.5pt solid #000001;border-bottom:0.5pt solid #000001;border-left:0.5pt solid #000001;border-right:1.5pt solid #000001;padding:0cm;" |Resistant to at least isoniazid and rifampin, the 2 best first-line TB treatment drugs
 +
|-
 +
| style="background-color:#009999;border-top:0.5pt solid #000001;border-bottom:1.5pt solid #000001;border-left:1.5pt solid #000001;border-right:0.5pt solid #000001;padding:0cm;" |'''Extensively'''
  
<div style="margin-left:0.7cm;margin-right:0cm;">[[#Toc428538814|1.1.]][[#Toc428538814|]][[#Toc428538814|Infection Prevention and Control Legislation]][[#Toc428538814|8]]</div>
+
'''drug-resistant '''
  
<div style="margin-left:0.7cm;margin-right:0cm;">[[#Toc428538815|1.2.]][[#Toc428538815|]][[#Toc428538815|Building legislation]][[#Toc428538815|8]]</div>
+
'''(XDR TB)'''
 +
| style="border-top:0.5pt solid #000001;border-bottom:1.5pt solid #000001;border-left:0.5pt solid #000001;border-right:1.5pt solid #000001;padding:0cm;" |Resistant to isoniazid and rifampin, PLUS resistant to any fluoroquinolone AND at least 1 of the 3 injectable second-line drugs (e.g., amikacin, kanamycin, or capreomycin)
 +
|-
 +
|}
 +
===Manifestations of TB===
  
<div style="margin-left:0.7cm;margin-right:0cm;">[[#Toc428538816|1.3.]][[#Toc428538816|]][[#Toc428538816|Infection prevention and control and TB management policy and guidelines]][[#Toc428538816|8]]</div>
+
<div style="color:#00000a;">TB is an infection caused by ''Mycobacterium tuberculosis'' also referred to as tubercle bacilli. TB most commonly affects the lungs, producing pulmonary TB. It can however spread to almost any part of the body including lymph glands, joints, kidneys and bone called extra-pulmonary TB. Pulmonary TB is the manifestation of most concern to built environment professionals as it produces greatest risk for transmission to others.</div>
  
<div style="margin-left:0.7cm;margin-right:0cm;">[[#Toc428538817|1.4.]][[#Toc428538817|]][[#Toc428538817|South African building practice policy and guidelines]][[#Toc428538817|9]]</div>
+
====Drug-susceptible TB====
  
<div style="margin-left:0.7cm;margin-right:0cm;">[[#Toc428538818|1.5.]][[#Toc428538818|]][[#Toc428538818|International design guidance]][[#Toc428538818|9]]</div>
+
<div style="color:#00000a;">By far the majority of TB cases are susceptible to widely accessible, inexpensive drugs. It is generally curable if treatment is completed.</div>
  
[[#Toc428538819|2.]][[#Toc428538819|]][[#Toc428538819|Service context]][[#Toc428538819|9]]
+
====Pre-MDR TB====
  
[[#Toc428538820|PART B -]][[#Toc428538820|]][[#Toc428538820|Understanding transmission to manage risk]][[#Toc428538820|14]]
+
Drug resistance [see Table 1: Drug resistance TB (CDC, 2010, slide number 28)]  can only be defined through laboratory confirmation of in-vitro resistance to one or more anti-TB drugs. Results are defined as follows:
  
[[#Toc428538821|1.]][[#Toc428538821|]][[#Toc428538821|Transmission of M. Tuberculosis]][[#Toc428538821|14]]
+
*Mono-resistant TB: in patients whose infection isolates of M. tuberculosis are confirmed to be resistant to one first line anti-TB drug.
 +
*Poly-resistant TB: TB in patients whose infection isolates are resistant in vitro to more than one first line drug, other than isoniazid and rifampicin.
  
<div style="margin-left:0.7cm;margin-right:0cm;">[[#Toc428538822|1.1.]][[#Toc428538822|]][[#Toc428538822|Disease status]][[#Toc428538822|15]]</div>
+
====MDR TB====
  
<div style="margin-left:0.7cm;margin-right:0cm;">[[#Toc428538823|1.2.]][[#Toc428538823|]][[#Toc428538823|Manifestations of TB]][[#Toc428538823|15]]</div>
+
<div style="color:#00000a;">MDR TB is active TB involving ''M. tuberculosis'' organisms that are resistant to at least isoniazid and rifampicin, the two most powerful anti-TB agents. An MDR TB strain can be resistant to more than these two antibiotics and in most cases it is resistant to first line drugs. </div>
  
<div style="margin-left:0.7cm;margin-right:0cm;">[[#Toc428538824|1.3.]][[#Toc428538824|]][[#Toc428538824|Origin of airborne infection]][[#Toc428538824|16]]</div>
+
====Pre-XDR TB====
  
<div style="margin-left:0.7cm;margin-right:0cm;">[[#Toc428538825|1.4.]][[#Toc428538825|]][[#Toc428538825|Infection prevention and control hierarchy]][[#Toc428538825|19]]</div>
+
<div style="color:#00000a;">Pre-XDR TB is MDR TB which is resistant to either a fluoroquinolone or an injectable, but not both. </div>
  
<div style="margin-left:0.7cm;margin-right:0cm;">[[#Toc428538826|1.5.]][[#Toc428538826|]][[#Toc428538826|Administrative IPC measures]][[#Toc428538826|19]]</div>
+
====XDR TB====
  
<div style="margin-left:0.7cm;margin-right:0cm;">[[#Toc428538827|1.6.]][[#Toc428538827|]][[#Toc428538827|Environmental IPC measures]][[#Toc428538827|22]]</div>
+
<div style="color:#00000a;">XDR TB is defined as TB with resistance to isoniazid and rifampicin, and - in addition to any fluoroquinolone, - to at least one of the three following injectable drugs used in anti-TB treatment: capromycin, kanamicyin and amikacin. Unlike TB and MDR TB patients, XDR TB patients are infectious even when on treatment and their drug-resistant strain can be transmitted directly to susceptible individuals. In other words, infection with a drug-resistant (including an XDR) strain of TB is possible without having contracted TB previously. </div>
  
<div style="margin-left:0.7cm;margin-right:0cm;">[[#Toc428538828|1.7.]][[#Toc428538828|]][[#Toc428538828|Dilution systems]][[#Toc428538828|23]]</div>
+
====Paediatric patients====
  
<div style="margin-left:0.7cm;margin-right:0cm;">[[#Toc428538829|1.8.]][[#Toc428538829|]][[#Toc428538829|Natural ventilation systems]][[#Toc428538829|24]]</div>
+
<div style="color:#00000a;">Children can contract any of the strains that adults can and manifest TB in all forms that adults present. There is consensus that whilst small children may have less lung capacity to develop velocities required for aerosolisation this has not been proven and is not universally true. Older, larger children are more likely to have transmission patterns like adults. </div>
  
<div style="margin-left:0.7cm;margin-right:0cm;">[[#Toc428538830|1.9.]][[#Toc428538830|]][[#Toc428538830|Disinfection systems]][[#Toc428538830|27]]</div>
+
===Origin of airborne infection===
 +
<div style="color:#00000a;">Organism-bearing particles are liberated into the air primarily from activities involving the respiratory tract such as sneezing and coughing. In quiet breathing, very few organisms are liberated, but in talking, coughing and especially in sneezing, large numbers of droplets, many of which contain organisms, are ejected. The high velocity of air passing over the respiratory tract shears off a profusion of small droplets which are forcibly ejected into the air.
 +
The size of the droplets swept by an air current from the surface of a liquid is determined principally by the velocity of the air and the surface tension of the liquid. As the air velocity increases, the size of the droplets decreases until above 100 m/s where the diameter of the water droplets approaches at least 10 microns (μm). In sneezing and coughing, the peak air flow in the bronchi approaches 300 m/s and the droplets are in the order of six μm in diameter.
  
[[#Toc428538831|PART C -]][[#Toc428538831|]][[#Toc428538831|Planning ]][[#Toc428538831|and]][[#Toc428538831| design principles]][[#Toc428538831|30]]
+
After being expelled from the TB patient’s mouth and nose, even the smallest droplets begin to fall. Generally, the large particle droplets fall to the ground where they become mixed with dust (see Figure 11). The fate of the smaller droplets is however, quite different. Droplets below a certain aerodynamic diameter fall slowly and lose water rapidly and evaporate almost instantaneously. In this way the droplet diminishes in size until the concentration of dissolved substances is such that the vapour pressure which the droplet exerts equals that of the atmosphere.
  
[[#Toc428538832|1.]][[#Toc428538832|]][[#Toc428538832|Patient profile]][[#Toc428538832|30]]
+
The residue of the droplet after evaporation, which may contain the micro-organism(s) from the respiratory tract, has been called the droplet nucleus. Droplet nuclei are so light that they may not settle in the gentlest of moving air of occupied spaces and may remain suspended for extended periods of time. This poses risk to building occupants until the particles are removed by ventilation or through other air disinfection.
  
[[#Toc428538833|2.]][[#Toc428538833|]][[#Toc428538833|Patient-centred care]][[#Toc428538833|31]]
+
Tubercle bacilli cannot be cultured from the air because of their low concentration and slow growth rate relative to other micro-organisms. The slow growth of tubercle bacilli and low concentrations in air require long sampling periods during which culture media, even with selective antibiotics to suppress microbial growth, become overgrown with fungi and other bacteria. Molecular amplification methods can detect nucleic acid from tubercle bacilli in the air, but cannot distinguish living from dead organisms nor quantify those with infectious potential. It is therefore not possible to measure infectiousness of TB or DR TB directly, nor can the efficacy of environmental infection control interventions to reduce or prevent transmission be measured directly.
  
<div style="margin-left:0.7cm;margin-right:0cm;">[[#Toc428538834|2.1.]][[#Toc428538834|]][[#Toc428538834|Safety]][[#Toc428538834|32]]</div>
+
Also, when considering airborne contagion, it is not well understood is how many infectious particles, or droplet nuclei, are required to infect. Compounding this uncertainty there are marked differences in the numbers of organisms liberated by coughing and sneezing of individual infectors. Despite these limiting factors, which are the subject of on-going speculation, investigation and scientific research, the general principles of contagious potential applies.
  
<div style="margin-left:0.7cm;margin-right:0cm;">[[#Toc428538835|2.2.]][[#Toc428538835|]][[#Toc428538835|Isolation]][[#Toc428538835|32]]</div>
+
In any form of contagion the probability of infection increases with the degree of exposure to the infection (see Figure 3: Contagion). The factors implicated in the potential to be contagious are:
  
<div style="margin-left:0.7cm;margin-right:0cm;">[[#Toc428538836|2.3.]][[#Toc428538836|]][[#Toc428538836|Infection prevention and control]][[#Toc428538836|32]]</div>
+
*the presence of susceptible members of the community
 +
*the presence of infectious cases
 +
*the effective contact rate (opportunities for transmission) influenced by variables which in the airborne example are factors such as:
 +
**exposure time
 +
**breathing rates of infector and susceptible
 +
**virulence (strength) of bacteria
 +
**environment (qualities of the room, such as humidity, air volume)
 +
</div>
 +
[[File:Contagion.png|none|thumb|439x439px|Figure 3: Contagion]]
 +
The probability of infection (1- e -Iqpt/Q) as a function of degree of exposure to infection Iqpt/Q (The point where Iqpt/Q =1 is identified by the co-ordinates).<div style="color:#00000a;">
 +
The number of new cases occurring in an epidemic is directly related to the number of susceptible persons, the number of infectors and the effective contact rate. Respiratory droplets (for example flu), with their limited flight, range and dependence on the simultaneous presence of source and subject, behave as a form of effective contact. Droplet nuclei, with their prolonged suspension and rapid dispersion may provide an enhanced exposure and effective contact rate. It was for this reason that Wells called droplet-nucleus-borne infection, airborne contagion.
  
<div style="margin-left:0.7cm;margin-right:0cm;">[[#Toc428538837|2.4.]][[#Toc428538837|]][[#Toc428538837|Slips, trips and falls]][[#Toc428538837|32]]</div>
+
DR TB can be acquired in two different ways: primary and secondary modes. Primary transmission is caused by person-to-person transmission of a drug-resistant strain of the TB bacilli. Secondary infection develops during TB treatment, either because the patient was not treated with the appropriate treatment regimen or because the patient did not follow the treatment regimen as prescribed. Approximately 1.8% of new TB and 6.7% of retreatment cases results in MDR. DR TB can be transmitted in the same way as drug-susceptible TB.
  
<div style="margin-left:0.7cm;margin-right:0cm;">[[#Toc428538838|2.5.]][[#Toc428538838|]][[#Toc428538838|Alarms and fire alarms]][[#Toc428538838|32]]</div>
+
Evidence suggests virulence of DR TB is the same as for drug-susceptible strains. However, DR TB is more difficult to treat because it can survive in a patient’s body even after treatment with the first-line drugs is started. A key challenge with current tuberculosis diagnosis technique is the delay in culturing this slow-growing organism in the laboratory. Blood or sputum culture results can take between four and twelve weeks. Because there has historically been a delay in diagnosing drug-resistant TB, these patients may be infectious for a longer period of time. Rapid screening tools for drug-resistance (GeneXpert) have been approved by the WHO, and are now in widespread use in South Africa.
  
<div style="margin-left:0.7cm;margin-right:0cm;">[[#Toc428538839|2.6.]][[#Toc428538839|]][[#Toc428538839|UV exposure risk]][[#Toc428538839|33]]</div>
+
The infectious droplet-nuclei which may remain suspended in air for prolonged periods of time and the respiratory droplets leads to a high risk of infection in shared spaces. This risk cannot be eliminated. However, expert consensus, based on strong circumstantial evidence, is that with adequate planning, design, management and maintenance, this risk can be reduced or managed. International best practice indicates that patients with drug-resistant TB should be closely monitored when commencing treatment and they should remain in isolation until they are no longer infectious.
 +
</div>
  
<div style="margin-left:0.7cm;margin-right:0cm;">[[#Toc428538840|2.6.1.]][[#Toc428538840|]][[#Toc428538840|Safe Exposure Limit]][[#Toc428538840|33]]</div>
+
The following invasive procedures should be regarded as high risk situations for transmission (Culver, Gordon and Mehta, 2003):  
  
<div style="margin-left:0.7cm;margin-right:0cm;">[[#Toc428538841|2.6.2.]][[#Toc428538841|]][[#Toc428538841|Reflections into the Lower Room]][[#Toc428538841|33]]</div>
+
*bronchoscopy,
  
<div style="margin-left:0.7cm;margin-right:0cm;">[[#Toc428538842|2.7.]][[#Toc428538842|]][[#Toc428538842|Security]][[#Toc428538842|34]]</div>
+
*sputum collection and induction, and
 +
*administration of aerosolized medications
  
<div style="margin-left:0.7cm;margin-right:0cm;">[[#Toc428538843|2.8.]][[#Toc428538843|]][[#Toc428538843|Inclusive design]][[#Toc428538843|34]]</div>
+
===Infection prevention and control hierarchy===
  
<div style="margin-left:0.7cm;margin-right:0cm;">[[#Toc428538844|2.9.]][[#Toc428538844|]][[#Toc428538844|Holistic care]][[#Toc428538844|34]]</div>
+
<div style="color:#00000a;">The emergence of DR TB has highlighted the need for strengthened infection prevention and control (IPC) measures to interrupt the transmission of TB in healthcare settings. There is has been no observed difference between the speed of transmission of susceptible TB and resistant MDR or XDR TB. For this reason, infection control measures apply to all TB strains irrespective of the resistant pattern.
 +
The requirement for controls to minimise the risk of spreading this airborne disease is legislated in the ''OHS Act'' (Act 85 of 1993). ''The National Department of Health Tuberculosis Strategic Plan for South Africa, 2007-2011'', in the ''Decentralised Management of Multi Drug Resistant TB – a Policy Framework for South Africa'' and various international agencies such as the WHO, Centers for Disease Control and Prevention in the USA provide policy guidance for infection control practices. Common to the last two is the need to base these practices on the hierarchy of control measures. These are arranged from most to least important as follows:
  
<div style="margin-left:0.7cm;margin-right:0cm;">[[#Toc428538845|2.10.]][[#Toc428538845|]][[#Toc428538845|Balanced service provision]][[#Toc428538845|34]]</div>
+
Administrative measures such as work practices, policies and procedures, education and training, TB screening of healthcare workers, and appropriate utilisation of existing facilities, the implementation of environmental (engineering) controls, and the use of personal respiratory protection in specified areas where there is a high risk of exposure.  
 +
</div>
  
<div style="margin-left:0.7cm;margin-right:0cm;">[[#Toc428538846|2.11.]][[#Toc428538846|]][[#Toc428538846|Healing environments]][[#Toc428538846|35]]</div>
+
===Administrative IPC measures===
 +
<div style="color:#00000a;">Appropriate architectural design to support the functional and operational processes required for the first level of the hierarchy of control, namely the administrative measures, must be investigated and ensured via the design and layout of the facility as a priority. The first and most important level of control is the use of administrative control measures is to prevent conditions for the spread of contagion, by limiting number and duration of encounters between susceptible members of the community and infectious air. Ideally, if the risk of exposure can be eliminated, no further controls are needed. Unfortunately, the risk usually cannot be eliminated, but it can be significantly reduced with proper administrative control measures. In any healthcare setting, important administrative control measures include:
  
<div style="margin-left:0.7cm;margin-right:0cm;">[[#Toc428538847|2.12.]][[#Toc428538847|]][[#Toc428538847|Occupant comfort]][[#Toc428538847|35]]</div>
+
*early diagnosis of potentially infectious TB patients,
  
[[#Toc428538848|3.]][[#Toc428538848|]][[#Toc428538848|Staff: patient ratios]][[#Toc428538848|36]]
+
*prompt separation or isolation of infectious TB patients, and
 +
*the prompt initiation of appropriate anti-tuberculosis treatment.</div>
 +
Other important administrative control measures include an assessment of the risk of transmission in the facility, the development of a TB infection control plan that details in writing the measures that should be taken in a given facility, and adequate training of healthcare workers to implement the plan.
 +
[[File:CSIR generic model illustrating the functional separation.png|none|thumb|489x489px|Figure 4: CSIR generic model illustrating functional separation]]
 +
From a facility planning and design perspective, administrative control measures can be addressed through the spatial separation techniques of functional separation, respiratory isolation, and separation for patient management. Functional separation (see Figure 4) provides for the physical separation of functionally discrete parts of the facility. Administrative functions and clinical support (admissions and discharge, accounts and finance, information services, medical records) should be substantially or exclusively reserved for staff use, and zoned separately. Nursing services, outpatient facilities, allied health services (radiology, pharmacy, rehabilitation) and visitors’ spaces may be used by both patients, staff and visitors, but should be laid out and managed so that the appropriate infection control measures are ensured. Finally patient support facilities, recreation facilities, and patient wards should be accessible to patients, but not necessarily all patients at all times, because of risk of cross-infection.<div style="color:#00000a;">
 +
The following situations and design features have been identified as presenting the potential for increased risk of TB transmission in healthcare settings, so that when allocations of spaces are made in existing infrastructure systems the following should be borne in mind:
  
[[#Toc428538849|4.]][[#Toc428538849|]][[#Toc428538849|Supporting the caregiver]][[#Toc428538849|37]]
+
*Congregate settings - any setting (usually waiting areas) where large groups of patients are kept in close proximity to each other are potentially high risk areas. The highest risks are usually in admission, main outpatient, emergency or pharmacy waiting areas where undiagnosed or untreated patients congregate. Smaller waiting areas or other functional areas, such as in x-ray departments or even multi-bed patient rooms can equally pose a risk.
  
<div style="margin-left:0.7cm;margin-right:0cm;">[[#Toc428538850|4.1.]][[#Toc428538850|]][[#Toc428538850|Recruitment, retention and productivity in staff]][[#Toc428538850|37]]</div>
+
*Restricted / inadequate ventilation - appropriate ventilation is important, especially in congregate settings or other direct contact areas, such as dining facilities, occupational therapy areas etc. Waiting areas need to be adequately ventilated at all times in order to dilute concentrations of infectious airborne bacteria. Areas such as consulting, examination, counselling or treatment areas where staff spend long times in relatively small areas in close proximity to patients should be considered high risk areas. Minimum opening window areas are prescribed but often not complied with. The WHO guidelines (WHO, 2009a) indicate a target of 20% open window area to space floor area. The design of the window is also important to promote natural ventilation. However improved ventilation alone is usually not enough to reduce risk in that the directional flow of air to and from adjacent areas needs to be addressed.
 +
*Shape and volume - the shape and volume of a space can also be a risk indicator. Occupied spaces with minimal floor to ceiling height (often found in multi-storey buildings) are generally higher risk areas than those with a shaped ceiling to high level clear storey windows. Shape and volume usually is linked to ventilation flow patterns and rates. The position and ease of opening of both high and low level windows is important. Staff awareness of the need to keep windows open to allow unobstructed ventilation is needed. “Open window” stickers are frequently used to provide visible reminders of open window policy.
 +
*Adjacency - the distance between carriers and staff or other patients is a risk factor. Congregate areas where patients are sitting close together is an obvious situation and settings where close contact occurs such as during consultation, examination and treatment are risk situations. Narrow bed spacing (less than 1.2 m) presents risk for both fine droplet and droplet nuclei contamination. Multi-bed wards configurations are risk situations.
 +
*Places where aerosol-generating procedures are undertaken- These are defined as high-risk procedures that may increase the potential of generating droplet nuclei because of the mechanical force of the procedure (e.g. intubation, cardiopulmonary resuscitation, bronchoscopy, autopsy, and surgery where high-speed devices are used) (WHO, 2007)</div>
 +
Total respiratory isolation for TB treatment would be ideal from an infection prevention and control point of view. Several factors make this both impractical and undesirable. First there are negative social and psychological impacts to strict separation including isolation and stigmatisation of patients. Second, nursing requirements, acuity and management dictate that patients must be visible to healthcare workers and accessible to them.<div style="color:#00000a;">Whilst provision of single bed wards is advisable as far as possible, shared spaces for joint activities are required. Estate legacy constraints (the size and shape of existing rooms), affordability (single-bed wards require a higher capital investment, higher operational and maintenance costs) and nursing acuity constraints (compact configurations allow for improved nursing efficiency) mean that single-bed configurations are not always possible, and it therefore is common practice at facilities in South Africa to provide rooms with two, four, six or more patients.
 +
TB facilities generally experience highly fluctuating patient demographics and needs. Given resource constraints and high demand, it is frequently useful to provide configurations which allow for flexible arrangements which can be administered according to prevailing needs.
 +
</div>
  
<div style="margin-left:0.7cm;margin-right:0cm;">[[#Toc428538851|4.2.]][[#Toc428538851|]][[#Toc428538851|Additional personnel considerations]][[#Toc428538851|37]]</div>
+
Management of patients may require spatial and/ or physical separation in accordance with facility policy:
  
[[#Toc428538852|5.]][[#Toc428538852|]][[#Toc428538852|Site appraisal]][[#Toc428538852|37]]
+
*according to gender
 +
*ostensibly drug susceptible TB – retreatment (treatment failure)
 +
*Mono-resistant TB (suspected-MDR)
 +
*Poly-resistant TB (suspected-MDR)
 +
*MDR TB
 +
*MDR treatment failure
 +
*Pre XDR TB
 +
*XDR TB
 +
*XDR treatment failure
 +
*First sputum culture negative result, pending second result (suspected cured)
 +
*children (with or without boarding parents)
 +
*patients requiring isolation ( for additional infectious diseases, psychological disturbance, prisoners)
  
<div style="margin-left:0.7cm;margin-right:0cm;">[[#Toc428538853|5.1.]][[#Toc428538853|]][[#Toc428538853|Building layouts]][[#Toc428538853|38]]</div>
+
Occasionally facility policy may allow for or require additional accommodation for outpatients, visitors or patients awaiting transfer. This may be applicable to specialised facilities (Centres of Excellence), where family and patients are likely to travel great distances but will not be applicable to Satellite Facilities on the decentralised scheme.<div style="color:#00000a;">Separation of each of the cohorts described above, especially at long-term care facilities is highly desirable. Generally, at a minimum, separation of gender, paediatrics and XDR patients is required. It is highly preferable to have some accommodation for patients requiring isolation and patients with first culture negative result (suspected cured). Further refinement will be dependent on individual facility policy, size of facility (larger facilities being more complex in nature) and whether it is primarily aimed at acute or sub-acute care.
 +
Administrative control measures must also ensure optimal operation of environmental control measures (see below). This may include assignment of a person to oversee environmental controls, to open and close windows as appropriate, change filters, test environmental control measures periodically, clean UVGI lamps if installed, perform preventative maintenance measures, etc. Whatever environmental control measures are in place, their adequate operation and maintenance should be included in the administrative control measures through the TB Infection Control Plan and their operational parameters and proper function should be evaluated regularly.  
 +
</div>
  
<div style="margin-left:0.7cm;margin-right:0cm;">[[#Toc428538854|5.2.]][[#Toc428538854|]][[#Toc428538854|Site Information]][[#Toc428538854|39]]</div>
+
===Environmental IPC measures===
 +
<div style="color:#00000a;">Environmental IPC protection methods should be the second- most prioritised approach, after administrative IPC measures and before personal protection measures (which should be used as measure of last resort). Two broad environmental strategies can be identified: dilution, which results in the reduction in concentration of contaminated particles in a volume of air and disinfection, which is the partial or complete destruction (sterilisation) of micro-organisms in air. Disinfection substances/ processes may be harmful to humans.
 +
Dilution is most easily achieved through maximising air volume through design of large spaces and addressing ventilation, in particular the introduction of “fresh” air from a “safe” source (preferably outdoor air) to continually replenish indoor air as it is exposed to infected persons.
  
<div style="margin-left:0.7cm;margin-right:0cm;">[[#Toc428538855|5.3.]][[#Toc428538855|]][[#Toc428538855|Engineering and bulk services]][[#Toc428538855|39]]</div>
+
The removal of contaminated air by dilution alone requires extremely large per-occupant ventilation rates to minimise risk. Acceptable levels of room airborne contaminant removal in most South African healthcare facilities cannot be sustainably accomplished by artificial ventilation alone. Its application is limited by engineering constraints and by cost. The professional consultant team is to consider the strategy to ventilation in the following prioritised sequence and only proceed to the next option if the previous is not achievable or not feasible: natural ventilation, mixed mode ventilation and finally mechanical ventilation.
  
<div style="margin-left:0.7cm;margin-right:0cm;">[[#Toc428538856|5.4.]][[#Toc428538856|]][[#Toc428538856|Climatic and sustainability considerations]][[#Toc428538856|39]]</div>
+
The disadvantages of reliance on natural ventilation for infection control include climate dependence and impact on patient comfort. Yet, the low cost of installation, operation and maintenance should be considered as benefits. The continuous escalation in the cost of electricity and ever-present risk of power outages further support the need to design, wherever possible, for natural rather than artificial ventilation.
  
<div style="margin-left:0.7cm;margin-right:0cm;">[[#Toc428538857|5.5.]][[#Toc428538857|]][[#Toc428538857|Future development]][[#Toc428538857|40]]</div>
+
The ventilation capacity of any naturally ventilated building is dependent on:
  
[[#Toc428538858|6.]][[#Toc428538858|]][[#Toc428538858|Additional Project Studies, Approvals and Requirements]][[#Toc428538858|40]]
+
*Wind direction and profile;
  
<div style="margin-left:0.7cm;margin-right:0cm;">[[#Toc428538859|6.1.]][[#Toc428538859|]][[#Toc428538859|Environmental Impact Assessment (EIA)]][[#Toc428538859|40]]</div>
+
*Building geometry;
 +
*Interior obstructions and flow paths;
 +
*Inner and outer temperature (buoyancy);
 +
*Type and degree of envelope and building permeability;
 +
*Adjacent structures and building location;
 +
*Terrain; and
 +
*Complimentary ventilation systems.</div>
 +
The successful commissioning of the installed ventilation system depends on the successful completion of the following steps:
  
<div style="margin-left:0.7cm;margin-right:0cm;">[[#Toc428538860|6.2.]][[#Toc428538860|]][[#Toc428538860|Local authority submissions]][[#Toc428538860|40]]</div>
+
*Definition of performance and functional requirements as identified during the project definition stage
  
<div style="margin-left:0.7cm;margin-right:0cm;">[[#Toc428538861|6.3.]][[#Toc428538861|]][[#Toc428538861|Phasing and decanting]][[#Toc428538861|40]]</div>
+
*Ensuring that the performance and functional requirements are met by the design and specification
 +
*Validating that the ventilation system performs and functions as intended. An independent authority shall validate the performance and functioning of the ventilation system.
  
<div style="margin-left:0.7cm;margin-right:0cm;">[[#Toc428538862|6.4.]][[#Toc428538862|]][[#Toc428538862|Commissioning and validation]][[#Toc428538862|40]]</div>
+
Whereas the requirements of SANS 10400 XA contemplate the limitation of infiltration and exfiltration of air from the building (sealing for energy conservation) a rational design approach must be adopted for natural and mixed mode systems.
  
<div style="margin-left:0.7cm;margin-right:0cm;">[[#Toc428538863|6.5.]][[#Toc428538863|]][[#Toc428538863|Post-occupancy evaluation]][[#Toc428538863|40]]</div>
+
===Dilution systems===
 +
<div style="color:#00000a;">Dilution ventilation refers to any method of ventilation (natural, mechanical or mixed-mode) in which air is encouraged to flow into and out of a space with the aim of reducing the background concentration of airborne contaminants within that space. The complete removal of all ''M. tuberculosis'' particles cannot be accomplished by dilution ventilation alone. Its efficacy is limited by engineering constraints as well as by cost and comfort conditions. Unlike odour and temperature control functions for which ventilation and other forced-air systems are designed, the removal of diluted air (still contaminated with infectious particles air) requires extremely large ventilation rates for adequate protection.
 +
According to the WHO Guideline ''Natural Ventilation for Infection Control in Health-Care Settings ''(WHO, 2009a), if natural ventilation alone is not able to reliably meet both the recommended ventilation and indoor comfort requirements then alternate ventilation systems, such as mixed-mode ventilation, should be sought. If that too does not meet the ventilation requirements, only then should mechanical ventilation systems be considered.
  
<div style="margin-left:0.7cm;margin-right:0cm;">[[#Toc428538864|6.6.]][[#Toc428538864|]][[#Toc428538864|Operation and maintenance manual (O&M)]][[#Toc428538864|41]]</div>
+
A summary of the advantages and disadvantages of natural, mechanical and mixed-mode ventilation is provided in Table 2
 +
{| class="wikitable"
 +
!
 +
|'''Mechanical ventilation'''
 +
|'''Natural ventilation '''
 +
|'''Hybrid (mixed-mode) ventilation'''
 +
|-
 +
|Advantages
 +
|Suitable for all climates and weather with air-conditioning as climate dictates
 +
|Suitable for warm and temperate climates – moderately useful with natural ventilation possible 50% of the time
 +
|Suitable for most climates and weather
 +
|-
 +
|
 +
|More controlled and comfortable environment
 +
|Lower capital, operational and maintenance costs for simple natural ventilation
 +
|Energy saving
 +
|-
 +
|
 +
|
 +
|Capable of achieving high ventilation rate
 +
|
 +
|-
 +
|
 +
|Smaller range of control of environment by occupants
 +
|Large range of control of environment by occupants
 +
|More flexible
 +
|-
 +
|Disadvantages
 +
|Expensive to install and maintain.
 +
|Easily affected by outdoor climate and/or occupants’ behaviour
 +
|May be expensive
 +
|-
 +
|
 +
|Reported failure rate in delivering the required outdoor ventilation rate
 +
|Reduces occupants comfort level when hot, cold or humid
 +
|May be more difficult to design
 +
|-
 +
|
 +
|Potential for noised from the equipment
 +
|Inability to establish negative pressure in isolation areas, but may be provided by proper design; depends on situation
 +
|
 +
|-
 +
|
 +
|
 +
|Potential for noise intrusion
 +
|
 +
|-
 +
|
 +
|
 +
|High tech natural ventilation shares some of the disadvantages and limitations of mechanical ventilation
 +
|}
 +
Table 2: Summary of the advantages and disadvantages of mechanical, natural and mixed-mode ventilation systems (WHO, 2009A).
 +
</div>
 +
===Natural ventilation systems===
 +
<div style="color:#00000a;">Natural ventilation is the flow of air through buildings driven by wind pressure and buoyancy forces. Natural ventilation is dependent on climate, building design, occupancy and activity in the building. Controlled natural ventilation is not limited to the strategic positioning, opening and closing of windows and doors to channel air flow in a certain direction. For natural ventilation to be effective as a ventilation solution, it must be considered from the earliest stages of the facilities design development. When developing the design concept for a naturally ventilated building, three basic steps need to be taken:
  
[[#Toc428538865|PART D -]][[#Toc428538865|]][[#Toc428538865|Operational narrative and user room requirements]][[#Toc428538865|42]]
+
#The desired airflow patterns from inlets to outlets (windows) through the occupied spaces need to be defined. This is closely related to the form, arrangement and management of the building, which in turn depends on the use patterns and even configuration of the site.
 +
#The principal driving forces, which enable the desired airflow patterns and ventilation rates (air changes) to be achieved, must be defined and quantified. Certain strategies tend to be wind-driven; others stack-driven. In successful designs, the principal airflow drivers are complementary to the intended flow rate and distribution.
 +
#Size and locate the openings (windows) so that the minimum and average required flow rates can be delivered under all operating regimes.
 +
</div>The incorporation of additional openings and devices such as solar chimneys, wind towers, turbine ventilators and wind scoops and cowls may assist the natural ventilation design by encouraging air to flow in a specified direction. These devices could also increase the ventilation rate.<div style="color:#00000a;">Naturally ventilated healthcare facilities should be designed such that the overall airflow pattern carries air from the infectious patients, to areas where there is adequate dilution, and be exhausted to the outside (WHO 2009a).
 +
For natural ventilation, the WHO recommends the following minimum hourly ventilation rates (WHO, 2009a):
  
[[#Toc428538866|1.]][[#Toc428538866|]][[#Toc428538866|Daily Schedule]][[#Toc428538866|42]]
+
#In new healthcare facilities or renovated spaces, an hourly average of 160 l/s/patient in airborne precaution rooms, with a minimum of 80/l/s per patient.
 +
#In general wards and outpatient departments (OPD), 60 l/s/patient. The occupancy of general wards and OPDs vary, and this should be considered in the design phase.
 +
#In corridors and other transient spaces, a minimum of 2.5 l/s/m<sup>3</sup> is required. When emergency medical procedure are performed in these areas , an hourly average of 160 l/s/patient is required for high risk procedures, and 60 l/s/patient for all other procedures.
 +
</div>
 +
In these areas the airflow should be from the infectious patients, to areas where there is adequate dilution, and exhausted directly to the outside. If this is not achievable, consideration should be given to mechanical ventilation. '''Sputum booths should be provided externally if at all possible. <span style="color:#000000;">Only where this is not possible should mechanically ventilated sputum booth options be considered.'''<div style="color:#00000a;"><span style="color:#000000;">See below for requirements of mechanical ventilation and Annex 1 for mechanically ventilated sputum booths.</span>It is important in natural ventilation design to consider:
  
[[#Toc428538867|2.]][[#Toc428538867|]][[#Toc428538867|User room requirements]][[#Toc428538867|44]]
+
#the fluctuation rates due to changes in weather in the design of natural ventilation systems (including extremes of wind speed);
 +
#building performance in inclement weather;
 +
#patient comfort; and
 +
#control of drafts in the occupied zone- Air currents in excess of 0.8 m/s in the occupied zone can cause disturbance and discomfort.
 +
</div>
  
<div style="margin-left:0.7cm;margin-right:0cm;">[[#Toc428538868|2.1.]][[#Toc428538868|]][[#Toc428538868|TB outpatient services]][[#Toc428538868|44]]</div>
+
====Mixed-mode systems====
 +
<div style="color:#00000a;">The terms “mixed-mode” and “hybrid” ventilation are used synonymously. They refer to mechanically assisted natural ventilation strategies. Mixed-mode systems essentially extend the capacity of naturally ventilated systems. The two major types of mixed-mode ventilation are:
  
<div style="margin-left:0.7cm;margin-right:0cm;">[[#Toc428538869|2.2.]][[#Toc428538869|]][[#Toc428538869|Patient accommodation]][[#Toc428538869|47]]</div>
+
#Complementary mixed-mode ventilation
 +
#Zoned mixed-mode ventilation
 +
</div>
 +
Complementary mixed-mode ventilation uses natural ventilation and mechanical ventilation strategies at different times of the day, or different seasons of the year, i.e. natural ventilation is used when wind conditions are favourable, and mechanical ventilation is extreme conditions. Complementary mixed-mode ventilation can further be classified as concurrent or changeover. In concurrent operation, the mechanical ventilation system works in the background to the natural ventilation system, assisting where temperature, airflow, or indoor air quality parameters are not met. In changeover strategies, the natural and mechanical ventilation systems work alternately. Seasonal and night-day changeovers are the most common.<div style="color:#00000a;">Zoned mixed-mode ventilation implies that certain parts of the building use natural ventilation, and other parts, usually specialised areas within the building, use mechanical ventilation. Brown and Huang (2006, p.47) recommends that energy zoning be employed for naturally ventilated buildings. Activities or spaces having similar cooling and occupancy schedules should be located close to each other, so that the same energy strategies can be used in those areas. In this way it is also possible to cluster the areas which will be naturally ventilated and the areas which will be mechanically ventilated. By clustering all the mechanically ventilated areas, air-conditioned air can be distributed more efficiently.
 +
Mixed-mode ventilation systems may benefit from control strategies. These control strategies may be manual or automatic. Automatic controls usually include sensors, actuators and controllers. The control strategy should be triggered if the required ventilation rates are not met. When this happens, the system switches from natural to mechanical. Once climatic conditions are able to deliver the required ventilation rate, the system should be set back to natural ventilation. Control strategies may also be temperature-based, or rain-based, but the required ventilation rates should be met if these controls are employed.
 +
</div>
  
<div style="margin-left:0.7cm;margin-right:0cm;">[[#Toc428538870|2.3.]][[#Toc428538870|]][[#Toc428538870|Clinical support services for inpatient care]][[#Toc428538870|47]]</div>
+
====Mechanical ventilation systems====
  
<div style="margin-left:0.7cm;margin-right:0cm;">[[#Toc428538871|2.4.]][[#Toc428538871|]][[#Toc428538871|Patient Support]][[#Toc428538871|49]]</div>
+
<div style="color:#00000a;">There are certain instances where the use of mechanical ventilation is the only feasible option, an example of which is deep-planned buildings.
 +
In high risk areas, the mechanical ventilation system should, at least, meet the following minimum ventilation requirements:
  
<div style="margin-left:0.7cm;margin-right:0cm;">[[#Toc428538872|2.5.]][[#Toc428538872|]][[#Toc428538872|Allied healthcare services]][[#Toc428538872|50]]</div>
+
#A ventilation rate of 12 ACH, or
 +
#A ventilation rate of 80 l/s/patient of outside or sterilised air.
 +
</div>Criteria 2 is required when considering congregate settings, such as waiting areas and dining halls. Criteria 1 is not relevant where option 2 is achieved. Criteria 1 is not relevant in high volume spaces (>3.5m AFFL).<div style="color:#00000a;">The system should preferably be a full fresh air system. All air should be exhausted directly to the outside. In the event of a partially recirculating system, HEPA filtration or in-duct UVGI should be considered should there be risk of airborne transmission (patient areas).
 +
Where neither of the points above can be sustainably achieved, the occupancy levels in high risk indoor spaces should be managed to remain below a level that which can be effectively served by the considered ventilation system.
  
<div style="margin-left:0.7cm;margin-right:0cm;">[[#Toc428538873|2.6.]][[#Toc428538873|]][[#Toc428538873|Support services]][[#Toc428538873|50]]</div>
+
The use of exhaust air filtration in single pass ventilation systems as a means of removing hazardous infectious particles from the room should be restricted to “in-room” filtration. “In-duct” filtration, will not lower the concentration of infectious airborne particles in the occupied zone in which they are being expelled by infectious persons. “In-duct” filtration can only remove the infectious particles present in the incoming air or in air being redistributed to other areas served by the recirculating system. “In-room” filtration can be achieved using portable air cleaners (PAC). PACs may therefore serve as an effective extension to the dilution process provided by controlled ventilation, where the ventilation rates required for IPC cannot be achieved. PACs can be used as a means to increase the contaminant removal effectiveness of the ventilation system (at the cost of increased energy consumption). The law of diminishing returns is applicable to any common intervention applied to reduce the probability of airborne cross-infection. For this reason it is important to quantify the expected gains before renovating, adjusting or augmenting systems.
  
<div style="margin-left:0.7cm;margin-right:0cm;">[[#Toc428538874|2.7.]][[#Toc428538874|]][[#Toc428538874|Facilities management]][[#Toc428538874|51]]</div>
+
Given the maintenance requirements for HEPA filtration and in-duct UVGI systems and the inherent occupational health risks associated with their maintenance, these systems should only be used as a measure of last resort in airborne precaution areas.
  
<div style="margin-left:0.7cm;margin-right:0cm;">[[#Toc428538875|2.8.]][[#Toc428538875|]][[#Toc428538875|Administration]][[#Toc428538875|51]]</div>
+
Where mechanical ventilation systems are used, consider the failure-mode fall-back option of reverting to natural ventilation.
  
<div style="margin-left:0.7cm;margin-right:0cm;">[[#Toc428538876|2.9.]][[#Toc428538876|]][[#Toc428538876|Other]][[#Toc428538876|51]]</div>
+
For more detail on airborne contamination control concepts refer to the <span style="color:#00000a;"><u>'' [https://www.iussonline.co.za/norms-standards/healthcare-environment/ IUSS:GNS Building Engineering Services]''</u></span>.
 +
</div>
  
[[#Toc428538877|PART E -]][[#Toc428538877|]][[#Toc428538877|Case studies]][[#Toc428538877|53]]
+
===Disinfection systems===
  
[[#Toc428538878|1.]][[#Toc428538878|]][[#Toc428538878|List of case studies]][[#Toc428538878|53]]
+
====Upper-room air UVGI====
 +
<div style="color:#00000a;">According to the CSIR Guidance document: ''UVGI Disinfection of Room Air: an Evidence Based Guideline for Design, Implementation and Maintenance, 2015 https://www.tb-ipcp.co.za/tools-resources/documents-paper-and-articles , the following irradiance and dose factors must be considered when evaluating the ability of an upper-room UVGI system to kill or inactivate airborne microorganisms:''
 +
*include the sensitivity of the microorganisms to UVGI
  
[[#Toc428538879|BIBLIOGRAPHY]][[#Toc428538879|59]]
+
*and the dose of UVGI received by a microorganism
 +
*the room occupancy levels
 +
*or population of microorganisms.</div>
 +
'''UVGI dose''' is the ultraviolet (UV) irradiance multiplied by the time of exposure and is usually expressed as μW·s/cm2. A appropriatly-designed upper-room UVGI system may be effective in killing or inactivating most airborne droplet nuclei containing mycobacteria if designed to provide an average '''UV fluence rate''' in the room in the range of 15 mW/m³ to-20 mW/m³ and provided the other elements stipulated in these guidelines are met. In addition, the fixtures should be installed to provide as uniform a UVGI distribution in the upper room as possible without losing too much fluence to the walls. There is likely an upper threshold where adding more UVGI will not achieve significant increases in inactivation (Xu, et al., 2003).<div style="color:#00000a;">As the mechanical ventilation rate in a room is increased, the total number of microorganisms removed from the room via this system is increased. However, when mechanical ventilation is increased in a room where an upper-room UVGI system has been deployed, the effectiveness of the UVGI system may be reduced because the residence time of the bacteria in the irradiated zone decreases. Under experimental laboratory conditions with mechanical ventilation rates up to six air changes per hour (ACH), the rate that microorganisms are killed or inactivated by UVGI systems appears to be additive with mechanical ventilation systems in well-mixed rooms. Similarly laboratory studies that UVGI effectiveness changes with modifications to mechanical ventilation rates. Exceeding 6 ACH may reduce UVGI effectiveness although the overall contaminant removal rate may still increase (Xu, et al., 2003).
 +
Upper-room UVGI systems rely on air movement between the lower portion of the room where droplet nuclei are generated and the upper irradiated portion of the room. Once in the upper portion, droplet nuclei containing ''M. tuberculosis'' may be exposed to a sufficient dose of UVGI to kill or inactivate them.
  
[[#Toc428538880|Abbreviations]][[#Toc428538880|64]]
+
When upper-room UVGI systems are installed, general ventilation systems should be designed to provide optimal airflow patterns within rooms and prevent air stagnation or short circuiting of air from the supply diffusers to the exhaust grilles. Also, heating and cooling seasons should be considered and the system designed to provide for optimal convective air movement. Consideration of the drop and throw parameters of selected ventilation air terminals is critical to ensure good mixing under all seasonal conditions.
  
[[#Toc428538881|ANNEXURE 1.]][[#Toc428538881|]][[#Toc428538881|Indoor Sputum booth]][[#Toc428538881|65]]
+
Most rooms or areas with properly installed supply diffusers and exhaust grilles should have adequate mixing. If f air stagnation is possible, air mixing should be improved by the considered addition of vertical air mixing fans or repositioning the supply diffusers and/or exhaust grills. If there is any question about vertical air mixing between the lower and upper portions of the room due to environmental or other factors, a fan(s) should be used to continually mix the air. In a room without adequate air mixing under experimental laboratory conditions, UVGI system effectiveness increased by up to 72% when a mixing fan was used.
  
[[#Toc428538886|ANNEXURE 2.]][[#Toc428538886|]][[#Toc428538886|PRE-Fabricated Outdoor Sputum booth]][[#Toc428538886|75]]
+
A number of studies have indicated that the effectiveness of upper-room UVGI systems decreases as humidity increases. The reason for the decrease in UVGI effectiveness is not clearly understood. However, the effect needs to be considered in the general context of upper-room UVGI systems.
  
[[#Toc428538887|ANNEXURE 3.]][[#Toc428538887|]][[#Toc428538887|Brickwork Outdoor Sputum booth]][[#Toc428538887|78]]
+
For optimal efficiency, relative humidity (RH) should be controlled to between 25% and 60% where upper room UVGI systems are installed. This is consistent with American Institute of Architects (AIA) and the American Society of Heating, Refrigerating, and Air-Conditioning Engineers (ASHRAE) recommendations that the RH affecting patient care areas in hospitals and outpatient facilities range from 30% RH to 60% RH. If high humidity conditions are normal, it may be necessary to install a system with greater than normal upper-room irradiance levels.
  
 +
Recommendations developed by ASHRAE and AIA stipulate that the design temperature for most areas affecting patient care in hospitals and outpatient facilities range from 20 °C to 24 °C. This temperature range is consistent with the optimal use of low pressure mercury lamps that are used in upper-room UVGI systems.
  
<div style="color:#00000a;"></div>
+
The most common way to generate germicidal UV radiation in lamps used in well-designed upper-room UVGI systems is to pass an electrical charge through low-pressure mercury vapour that has been enclosed in selected glass tubes that transmit only certain UV wavelengths. Care must be used in selecting the correct UVGI lamp for use in upper room UVGI systems. Typically, the optimal wavelength for UV germicidal radiation is 254 nanometres (nm) in the UVC range. UV lamps are made for a variety of purposes that may have a negligible consequence in killing airborne microorganisms. Some UV lamps (such as those used for tanning) radiate energy in the UVA and/or UVB range and over extended periods may have adverse health consequences for exposed persons. Other UV lamps are designed to emit radiation at 184.9nm and produce ozone, which is hazardous to humans even at low concentrations. Low-pressure mercury lamps should be rated for low or no ozone generation. Since all lamps must eventually be discarded, each lamp should contain only a relatively small quantity of mercury (i.e., 5mg or less).
  
<div style="color:#00000a;"></div>
+
In upper-room UV irradiation, fixtures containing UVGI lamps are suspended from the ceiling or installed on walls. The base of the lamp is shielded to direct the radiation upward and outward to create an intense zone of UVGI in the upper air while minimizing the level of UVGI in the lower (occupied) portion of the room or area. The height of the room must be considered in the design of an effective system.
  
<div style="color:#00000a;"></div>
+
A professional who is knowledgeable in upper-room UVGI systems design and installation should be consulted before procurement and installation of the system. The number of persons competent in the design of upper-room UVGI systems is normally limited.
  
<div style="color:#00000a;"></div>
+
Persons who may be consulted include engineers, industrial hygienists, and radiation/ health physicists. A mechanism to provide training certification for system designers should be developed and based on the guidance document ''UVGI Disinfection of Room Air: an Evidence Based Guideline for Design, Implementation and Maintenance.''
  
<div style="color:#00000a;"></div>
+
Once the number and types of UVGI fixtures appropriate for the room or area have been determined, the fixtures need to be appropriately installed. Installation guidelines are provided in the ''Environmental Control for Tuberculosis: Basic Upper-Room Ultraviolet Germicidal Irradiation - Guidelines for Healthcare Settings'' document and the guidance document ''UVGI Disinfection of Room Air: an Evidence Based Guideline for Design, Implementation and Maintenance''. Only qualified service technicians who have received training on the installation and placement of UVGI lamp fixtures should install the systems. Following installation UV lamps require on-going maintenance and frequent replacement, by suitably skilled technicians. This consideration may be a limiting factor in the use of the solution.
 +
</div>
  
<div style="color:#00000a;"></div>
+
====Personal protection measures====
  
<div style="color:#00000a;"></div>
+
<div style="color:#00000a;">In addition to administrative and environmental control measures, the recommended personal control measure for protection of the healthcare worker, from inhaling infectious droplets in high-risk DR TB settings, is the use of respiratory protective devices. These are designed to fit over the mouth and nose and filter out infectious TB particles.
 +
Respiratory protective devices for healthcare workers that are capable of adequately filtering out infectious particles are more expensive than surgical or procedure masks. Nevertheless, their use in high-risk DR TB settings is strongly recommended, particularly in high burden HIV settings where many healthcare workers may be HIV infected. Respiratory protection should be used only when all other administrative and/or environmental control measures are fully implemented. Acceptable respirator types meet the performance requirements outlined in table 7, and include:
  
<div style="color:#00000a;"></div>
+
*SANS 50149 FFP2/3 respirators
  
<div style="color:#00000a;"></div>
+
*CDC - NIOSH N95 respirators</div>
 +
The use of N95 respirators should be used with caution in South Africa as there is no framework of compulsory standards and regulations controlling their use. The user may therefore not be adequetly protected from fake devices. The National Regulator for Compulsory Specification (NRCS) has published a homologated database of FFP2/3 devices compliant with SANS 50149.
  
<div style="color:#00000a;"></div>
+
http://www.nrcs.org.za/siteimgs/CMM/Homologation%20Database%20-%20PPE.pdf<div style="color:#00000a;">Surgical (also called procedure) masks, in accordance with SANS 1866, may be worn by patients in order to prevent the dispersion of respiratory droplets and to reduce formation of droplet nuclei. Surgical masks do not adequately prevent airborne particles from being inhaled by the wearer. SANS 1866 Type 2 surgical masks should be used with caution as they resemble N95 or FFP2/3 respirators and may be easily confused with the latter.
 +
An analysis of the facility design should be made in respect of where provision for personal protective equipment PPE should be made available. These include:
  
<div style="color:#00000a;"></div>
+
*protective eyewear (for UV device maintenance)
 +
*respiratory protection (typically respirators for healthcare workers, cleaning and maintenance staff, visitors), and
 +
*surgical masks (for patient use).</div>
 +
Dry, secure storage of bulk PPE supplies conveniently located close to points of use should be provided. As respirators are costly and personalised (respirators cannot be shared) secure hanging/ drying facilities clearly marked to avoid confusion are recommended. Stations are required for daily PPE supplies and for disposal facilities (bins) for discarded masks and respirators.
  
<div style="color:#00000a;"></div>
+
='''Planning and design principles'''=
 +
<div style="color:#00000a;">For specialised TB services long-term accommodation, the project planning, design, construction and commissioning should aim to provide:
  
<div style="color:#00000a;"></div>
+
*a safe, secure and functional environment for patients and staff;
  
<div style="color:#00000a;"></div>
+
*optimal accommodation and support for long term patient stay;
 +
*low capital and on-going operating costs (service, staffing and maintenance);
 +
*an environmentally appropriate design solution; and
 +
*a fully accessible, inclusive environment.</div>
 +
==Patient profile==
  
<div style="color:#00000a;"></div>
+
<div style="color:#00000a;">There are known risk factors associated with an increased likelihood of contracting TB, including DR TB and increased risk of latent disease manifesting in active TB. Patient profile and demographic data are not systematically kept in South Africa, though there appears to be an uneven and fluctuating distribution. Relatively poor socioeconomic groups may be more vulnerable to DR TB infection, but it can (and does) affect anyone regardless of age, gender, race or socioeconomic circumstance. The strong correlation between HIV and TB has been noted. In addition, globally, an increased risk is associated with malnutrition, heavy smoking, silicosis, diabetes mellitus, Hodgkin lymphoma, end-stage renal disease, chronic lung disease, and alcoholism.[[File:Changes in the number of TB notifications in a sample South African community, stratified by age.png|none|thumb|473x473px|Figure 5: Changes in the number of TB notifications in a sample South African community, stratified by age, 1996 - 2004 (Lawn, et al., 2006, p.1043)]][[File:Total number of TB notifications between 1996 - 2004 in a sample South African community, stratified by age and sex .png|none|thumb|473x473px|Figure 6: Total number of TB notifications between 1996 - 2004 in a sample South African community, stratified by age and sex (Lawn, et al., 2006, p.1043)]]Isolated research studies (whose findings may not be generalizable) in South Africa found that TB incidence and prevalence per gender varies with age (see Figure 5). TB incidence was highest in the population group aged 30-49 years, which is the economically productive age group with highest number of dependants. 11% of cases were in children. In the study there was a significant increase in TB among adolescents, especially girls, between 1996 and 2004 (see Figure 6: Total number of TB notifications between 1996 - 2004 in a sample South African community, stratified by age and sex  Reflecting the global situation, TB affects more men than women.
  
<div style="color:#00000a;"></div>
+
Some population groups, such as prisoners and miners are at increased risk of contracting TB.
 +
</div>
  
 +
==Patient-centred care==
 +
<div style="color:#00000a;">Hospitalisation for DR TB places a unique demand on infrastructure. During their stay patients may become either very ill and in need of hospital acute care, to being well or feel quite well only requiring supervised medication. In order to support patient care, part step-down quasi residential-type accommodation should be provided, so that patients who are feeling well can feel “at home”; and part hospital-type accommodation should be provided, in areas where direct staff supervision is possible.
 +
There is strong evidence from research studies which describe the importance of health facility design as a means to improve health outcomes (Ulrich, et al., 2008). The more supportive the environment is, the less chance there will be of admitted patients absconding and infecting others in the community while still in an infectious stage of the disease. Environmental factors such as large windows with high levels of daylight, views of nature, low noise levels all reduce stress and depression and promote healing. Some visual and acoustic privacy (screening for confidential/ personal activities in counselling, consulting and ward areas) promotes patient dignity. Personal choice and control over heating, lighting and furniture layout instils a sense of empowerment.
 +
</div>
  
 +
===Safety===
 +
<div style="color:#00000a;">There are several aspects of risk that should be addressed by the consultant team. They include: infection prevention and control (for airborne and other modes of transmission) slips and falls, fire, and UV exposure. Only the most likely and critical of risks have been addressed in this document.
  
= {{anchor|Toc428538808}} List of Figures =
+
===Isolation===
 +
Distinction can be made between five types of segregation:
  
[[#Toc428538998|Figure 1: Centralised management of MDR TB]][[#Toc428538998|12]]
+
*Separation – patients are housed in single room accommodation though they may not be self-harming or violent.
  
[[#Toc428538999|Figure 2: Coughing generating aerosols - Source Jennison 1942]][[#Toc428538999|14]]
+
*Negative pressure room applied to infectious patients, with airlock ante-chamber (e.g. TB patients).
 +
*Positive pressure isolation room applied to immuno-compromised/ susceptible patients, with airlock (e.g. burns patients).
 +
*Duel-function isolation – with controls to convert from positive to negative pressure according to current room occupancy, with airlock. This is discouraged due to complexities in designing and operating these and due to increase risk in accidental incorrect use.
 +
*Seclusion (Social isolation) – for patients who are self-harming or violent. A room with high level of security which complies with national norms and standards for psychiatric care facilities. Airlock not required.
 +
*Barrier isolation – patients are housed within a chamber constructed of an impermeable barrier and typically ventilated through HEPA filters. Decontamination airlocks and material transfer chambers are included in the system. These types of systems are exclusively used for suspected P4 level pathogens, and are not indicated for use with TB patients.
 +
</div>
 +
When briefing professional consultant teams, it is important to convey where each of the above is required. For TB, infection control is useful and usually all that is provided. For further information on Isolation rooms, the reader is referred to the IUSS Adult In-patient Services guidance document. https://iussonline.co.za/norms-standards/clinical-services
  
[[#Toc428539000|Figure 3: Contagion]][[#Toc428539000|18]]
+
===Infection prevention and control===
 +
<div style="color:#00000a;">The most critical aspect of risk in the design is from the point of view of airborne infection control. This aspect has been addressed in detail in previous sections (for airborne infection) and in the. Refer to <span style="color:#00000a;"><u>''IUSS:GNS Infection prevention and control''</u></span>. </div>
  
[[#Toc428539001|Figure 4: CSIR generic model illustrating functional separation]][[#Toc428539001|20]]
+
===Slips, trips and falls===
 +
<div style="color:#00000a;">Slippery floor surfaces should be avoided, particularly externally. Contrasting colours should be used at changes in floor level to assist visually impaired persons. Adequate lighting, handrails and guardrails should be provided. External paving areas should be well drained.</div>
  
[[#Toc428539002|Figure 5: Changes in the number of TB notifications in a sample South African community, stratified by age, 1996 - 2004 (Lawn, et al., 2006, p.1043)]][[#Toc428539002|30]]
+
===Alarms and fire alarms===
 +
In addition to the usual compliance requirements, it should be noted that as deafness is a common side-effect of TB treatment regimes, all sounding alarms including fire alarms should be supplemented with visible alarms in patient areas e.g. red or yellow flashing lights to accompany fire or emergency evacuation alarms.
  
[[#Toc428539003|Figure 6: Total number of TB notifications between 1996 - 2004 in a sample South African community, stratified by age and sex (Lawn, et al., 2006, p.1043)]][[#Toc428539003|31]]
+
===UV exposure risk===
 +
<div style="color:#00000a;">Where ultraviolet radiation germicidal irradiation (UVGI) is contemplated, due consideration must be made to potential adverse health effects on patients, staff (including maintenance staff) and visitors. For convenience the UV spectrum is described in three different wavelength bands: UVA (long wave lengths, range: 320–400 nm), UVB (midrange wavelengths, range: 290–320 nm) and UVC (short wave lengths, range: 100–290 nm).
 +
UVC is unlike UVA and UVB, as it has extremely low penetrating ability. It is nearly completely absorbed by the outer layer of the skin (stratum corneum), where little or no harm is experienced. Although listed as a potential carcinogen for man, UVC is unlikely to be carcinogenic or to cause skin or eye irritation (keratoconjunctivitis) if applied correctly within exposure limits as set out by the International Radiation Protection Agency (IRPA) and other international health bodies.
 +
</div>
 +
Since open UVGI devices are principally designed to emit a certain amount of UV-c radiation, these devices cannot be considered to be intrinsically safe. The UVGI system should be designed to achieve the maximum system output and maintain the lowest reasonable exposure levels in the occupied zone of the room.<div style="color:#00000a;">The primary safety concern with UVGI in controlling eye exposure to prevent irritation, limits the irradiance limits achievable in the occupied room.</div>
  
[[#Toc428539004|Figure 7: Recommended suitability coding for site appraisal]][[#Toc428539004|38]]
+
====Safe Exposure Limit====
 +
<div style="color:#00000a;">The occupied rooms considered for UVGI should not exceed an exposure dose below 6 mJ/cm² (for mercury vapour lamps at 254 nm 15) and 3.8 mJ/cm² (at 265nm) per 8h.
 +
Therefore, in the typical application of 254nm devices, occupant exposure shall not exceed 0.40µW/cm² for a period of time equivalent to 4 hours per work day. If exceeded, steps must be taken to reduce the effective irradiance dose to less than 6.0mJ/cm2 for the total duration per day.
  
[[#Toc428539005|Figure 8: Recommended condition assessment coding for site appraisal]][[#Toc428539005|39]]
+
It becomes important to consider the actual nature and usage of these spaces to determine appropriate safe exposure rates. In determining these rates, occupancy factors such as the eye level of regular occupants, position of occupants (seated, standing, lying down), frequency and duration of exposure, need to be determined and incorporated. Therefore different areas or rooms will require different safety limits.
  
[[#Toc428539006|Figure 9: An illustration of local exhaust ventilation device (sputum booth) (source; CSIR 2014)]][[#Toc428539006|46]]
+
Areas such as passages and wards would therefore demand vastly different safety limits from each other.
  
[[#Toc428539007|Figure 10 Sputum booth, Rear View]][[#Toc428539007|65]]
+
The economic considerations of infection control suggest that high risk areas be given priority for air disinfection. These areas will be determined through the outcome of a comprehensive risk assessment of the facility. Installation of open UVGI devices in stairwells is not considered safe practice as there is seldom sufficient soffit height for an effective upper room zone. Where passages are used as return air plenums in recirculating ventilation systems, these passages shall be considered for air disinfection.
 +
</div>
  
[[#Toc428539008|Figure 11 Sputum booth, Left View]][[#Toc428539008|69]]
+
====Reflections into the Lower Room====
 +
<div style="color:#00000a;">The potential of high UV intensities being reflected into the occupied room must be considered by designers and users. Certain materials and surfaces that reflect visible light might also reflect UV-c light; for example consider reflectors of regular open luminaires, windows, exposed ducting and metallic or high gloss architectural finishes in the upper room.</div>
  
[[#Toc428539009|Figure 12 Sputum booth, Front View]][[#Toc428539009|70]]
+
===Security===
 +
<div style="color:#00000a;">In the South African context, there is considerable store in balancing security needs, so that patients and staff feel that their person and their personal belongings are protected from harm. Detailed guidance is provided in [https://iussonline.co.za/norms-standards/healthcare-environment IUSS:GNS Security].</div>
  
[[#Toc428539010|Figure 13 Sputum booth, ISOMETRIC View]][[#Toc428539010|71]]
+
===Inclusive design===
 +
<div style="color:#00000a;">In accordance with the Constitution of South Africa, Occupational Health and Safety Act, the Promotion of Equality and Prevention of Unfair Discrimination Act and the UN Convention on Rights of People with Disabilities, Universal Design is a key requirement for all public buildings in South Africa. Refer to [https://iussonline.co.za/norms-standards/healthcare-environment IUSS:GNS Inclusive environments].</div>
  
[[#Toc428539011|Figure 14 Sputum booth, DOOR CONTROL LOGIC]][[#Toc428539011|72]]
+
===Holistic care===
 +
<div style="color:#00000a;">DR TB facilities must accommodate patient care, dignity and wellbeing. Medical and accommodation needs are clearly the minimum and most critical aspect that must be addressed by the facility. However the accommodation needs for long-term care must address patients’ needs in a more holistic way. </div>
  
[[#Toc428539012|Figure 15 Sputum booth, Door controller wiring]][[#Toc428539012|73]]
+
===Balanced service provision===
 +
<div style="color:#00000a;">Some of the identified problems related to long-term patient needs are isolation of economically active sufferers from their working environment, and interruption of schoolwork in children. The provision of education and development programmes for adults and children alike (library and multi-media facilities have the potential to reduce isolation, stigmatisation, and to contribute to a positive frame of mind) are therefore just some of the issues that can be addressed via facility design. A small business hub with information communications technology (ICT) connectivity may be provided to assist patients who may need to keep their businesses running while under treatment. Both indoor and outdoor recreational activities and other opportunities for physiological, psychological and spiritual needs during this extended stay should be provided in the facility. The provision of patient support accommodation and social counselling and support (visits from relatives and friends) is essential to promote a sense of wellbeing and purpose. Allied health services such as pharmacy, and rehabilitation therapy (occupational therapy, physiotherapy, and social work) play a critical role in supporting whole-patient care. Treatment side effects may include hearing loss, so that provision of audiology booth for regular testing is useful. Screened, covered and well-ventilated sputum booths should be provided in close proximity to clinical areas for production of sputum samples. These may be equipped with a hand-wash basin, a shelf and a plug point, to allow for nebulisation. Chest (and other) x-rays need to be taken, therefore provision of x-ray facilities with appropriate radiation protection should be provided.
 +
Given resource constraints, it is not always possible to invest in the full complement of these facilities at DR TB centres in one capital investment. However, as each potentially adds to quality of care that can be delivered, which leads both directly and indirectly (say, through preventing absconding) to improved health outcomes, best practice recommends that these aspects be addressed as fully as practicable. It is useful to produce master-plan proposals, within a phasing framework so that a full complement of services can be provided over time, and so that short term development does not compromise medium and long term development potential.
  
[[#Toc428539013|Figure 16 Sputum booth, DOOR CONTROLLER PCB (NTS)]][[#Toc428539013|74]]
+
Patients in some DR TB settings are permitted to prepare their own meals, but this is unusual practice and is usually optional and reserved for patients who are pending discharge. Policies in terms of meal presentation and delivery vary between institutions. Three basic modes of delivery include a pre-plated service delivered to the patient bed. The second mode is a tray served at a dining table and the third is a buffet-style service. As meal preparation services are frequently outsourced, the first two modes of delivery are most commonly found in South Africa. Dedicated dining facilities are not always available, so that meals must be served at patients’ bedsides or lounge areas (if provided). Bedridden and ill patients may be unable to use formal dining facilities. International studies in long-term care facilities have shown that there are increased appetite, nutrition and patient satisfaction in communal dining settings, and particularly with buffet-style eating. However these studies have primarily been undertaken for the elderly. Similar studies have not been undertaken in South Africa or for TB patients. To complicate matters, patients in communal dining settings are unable to use personal protective equipment, raising risk at these encounters. Nevertheless it is recommended that patient formal dining facilities be provided for and that they are treated as high risk areas in terms of infection control.
  
[file:///K:/C%20N%26S%20Clinical%20Services/16%20TB%20services/2014_07_02%20IUSS%20TB%20Services%20Proposal%20V2b(TVR).docx#_Toc428539014 Figure 17 Sputum Booth: Isometric View][file:///K:/C%20N%26S%20Clinical%20Services/16%20TB%20services/2014_07_02%20IUSS%20TB%20Services%20Proposal%20V2b(TVR).docx#_Toc428539014 75]
+
Facility policy may provide that patients in long-term care facilities are encouraged to participate in cleaning, laundry and gardening activities.  
 +
</div>
  
[file:///K:/C%20N%26S%20Clinical%20Services/16%20TB%20services/2014_07_02%20IUSS%20TB%20Services%20Proposal%20V2b(TVR).docx#_Toc428539015 Figure 18 Sputum Booth: Front View][file:///K:/C%20N%26S%20Clinical%20Services/16%20TB%20services/2014_07_02%20IUSS%20TB%20Services%20Proposal%20V2b(TVR).docx#_Toc428539015 76]
+
===Healing environments===
 +
<div style="color:#00000a;">International research into evidence-based design has concluded that well designed built environments can play a critical role in improving healing outcomes. Infrastructure has an important role to play in this respect. Long-term DR TB care facilities should not only address the needs of patients and their families, but also the needs of healthcare workers.</div>
  
[file:///K:/C%20N%26S%20Clinical%20Services/16%20TB%20services/2014_07_02%20IUSS%20TB%20Services%20Proposal%20V2b(TVR).docx#_Toc428539016 Figure 19 Sputum Booth: Side View][file:///K:/C%20N%26S%20Clinical%20Services/16%20TB%20services/2014_07_02%20IUSS%20TB%20Services%20Proposal%20V2b(TVR).docx#_Toc428539016 77]
+
===Occupant comfort===
 +
<div style="color:#00000a;">While ventilation is of significant importance to maintain effective infection control within the healthcare buildings, one of the most critical aspects of patient recovery is adherence and completion of their treatment regime.
 +
Buildings should be designed so that comfort conditions in indoor environments can be achieved irrespective of climate conditions, bearing in mind that TB sufferers are typically very underweight and may have little tolerance for cold. The climate may require supplemental heating to achieve comfort conditions in winter without compromising the ventilation requirements. The operational constraints of the hospital (in terms of maintenance and operational costs as well as environmental impact) mean that fully air-conditioned or heated wards are usually not desirable either.The ISO standard 7730 provides a measure of thermal comfort based on the predicted mean vote (PMV) method. The ASHRAE 55 ''Thermal environmental conditions for human occupancy'' guide provides methodology for measuring comfort conditions, including provision for naturally ventilated buildings. It is proposed that these form the basis of the design assessment relating to thermal comfort.
  
[file:///K:/C%20N%26S%20Clinical%20Services/16%20TB%20services/2014_07_02%20IUSS%20TB%20Services%20Proposal%20V2b(TVR).docx#_Toc428539017 Figure 19 Brickwork Sputum Booth: Layout and detail][file:///K:/C%20N%26S%20Clinical%20Services/16%20TB%20services/2014_07_02%20IUSS%20TB%20Services%20Proposal%20V2b(TVR).docx#_Toc428539017 78]
+
The ventilation and comfort control design must weigh up these competing requirements to provide an optimal indoor environment (ventilation and thermal comfort) while bearing in mind the operational impacts on the hospital in the long term. As such, the following metrics should be used to demonstrate an optimal balance of ventilation, thermal comfort and operational costs:
  
= {{anchor|Toc428538809}} List of Tables =
+
*Proportion of hours where the targeted ACH rate is achieved (currently 160 l/s per person for naturally ventilated areas)
  
[[#Toc428539018|Table 1 : IUSS:GNS Reference Documents]][[#Toc428539018|7]]
+
*Proportion of hours where either:
 +
*PMV levels between -1.0 and 1.0 are achieved; or
 +
*Acceptability limits of ASHRAE Standard 55, 2004 are achieved within 80% of acceptability limit 1
 +
*Predicted operational costs (energy use and maintenance)</div>
 +
The decision-making with respect to the mechanical or naural ventilation system or other systems relating to thermal comfort should take all these into account.
  
[[#Toc428539019|Table 2: Drug resistance TB (CDC, 2010, slide number 28)]][[#Toc428539019|15]]
+
==Staff: patient ratios==
 
+
<div style="color:#00000a;">According to the ''Decentralised Management of Multi Drug Resistant TB – a Policy Framework for South Africa'', a provincial/ centralised MDR TB unit requires the following minimum staffing levels. This should be cross-referenced against the WHO Document “Workload Indicators of Staffing Need” (WHO, 2010) which has been formally adopted by the NDoH:
[[#Toc428539020|Table 3: Summary of the advantages and disadvantages of mechanical, natural and mixed-mode ventilation systems (WHO, 2009a).]][[#Toc428539020|24]]
+
{| class="wikitable"
 
+
|Doctor
[[#Toc428539021|Table 5: Sample Organisational Development Investigation the following staffing complement per 30 bed functional unit (]][[#Toc428539021|courtesy Brooklyn Chest Hospital]][[#Toc428539021|).]][[#Toc428539021|36]]
+
|1/40 beds
 
+
|-
[[#Toc428539022|Table 6: ]][[#Toc428539022|Sample: Current daily activities at long-term care facility]][[#Toc428539022|42]]
+
|Professional nurse / Staff nurse or Nursing Assistant
 
+
|4/ 11 per 40 beds
[[#Toc428539023|Table 7: Patient accommodation cohorts for short-term accommodation]][[#Toc428539023|47]]
+
|-
 
+
|Pharmacist           
= {{anchor|Toc428538810}} {{anchor|Toc311032402}} Overview =
+
|1 per 100- 200 beds
 
+
|-
<div style="color:#00000a;">This document outlines the policy and service context and attempts to illustrate the desired planning principles and design considerations of outpatient, acute inpatient, and long-term care accommodation (specialised services) for provision of TB services.</div>
+
|Social worker
 
+
|1 for > 40 beds
<div style="margin-left:1.27cm;margin-right:0cm;">''Part A'' outlines the South African legislation, policies and international guidance reference documents and the service context with respect to TB services.</div>
+
|-
 
+
|Dietician
<div style="margin-left:1.27cm;margin-right:0cm;">''Part B'' discusses transmission to manage risk.</div>
+
|1 for > 40 beds
 
+
|-
<div style="margin-left:1.27cm;margin-right:0cm;">''Part C'' provides planning and design principles for specialised TB facilities.</div>
+
|Clinical Psychologist
 
+
|1 for > 40 beds
<div style="margin-left:1.27cm;margin-right:0cm;">''Part D ''provides an operational narrative and provides user room requirements.</div>
+
|-
 
+
|OT
<div style="margin-left:1.27cm;margin-right:0cm;">''Part E'' provides case studies.</div>
+
|1 for > 40 beds
 
+
|-
<div style="color:#00000a;">Parts D and E are intended to demonstrate how the principles prescribed in Part A, B, and C can be applied in worked examples. Part D, if used directly, is deemed to satisfy the principles developed in Part B, but is not the only acceptable solution.</div>
+
|Audiologist
 
+
|1 for > 40 beds
<div style="color:#00000a;">Case studies (Part E) provide illustrative worked solutions for specialised TB facilities and should not be adopted without appropriate contextual adaptation.</div>
+
|-
 
+
|Physiotherapist   
<div style="color:#00000a;">While this document outlines design requirements and acceptance criteria which have an impact on clinical services, these requirements are prescribed within the framework of the entire IUSS set of guidance documents and cannot be viewed in isolation. The following documents should be complied with, together with this document:</div>
+
|1 for > 40 beds
 
+
|-
====== {{anchor|Toc428539018}} Table 1 : IUSS:GNS Reference Documents ======
+
|Data Capturer/ Admin Clerk
 
+
|1 for 100- 200 beds
 
+
|-
{| align="center" style="border-spacing:0;width:15.921cm;"
+
|Driver
 +
|1 for > 40 beds
 +
|}
 +
Table 3: Sample Organisational Development Investigation the following staffing complement per 30 bed functional unit (''courtesy Brooklyn Chest Hospital'')
 +
{| class="wikitable"
 +
|'''OFFICE: ADMINISTRATION'''
 +
|'''NUMBER OF POSTS'''
 +
|'''COMMENTS'''
 +
|-
 +
|Administration clerk
 +
|1
 +
|
 +
|-
 +
|CLINICAL SERVICES
 +
|
 +
|
 +
|-
 +
|Medical officer
 +
|1
 +
|
 +
|-
 +
|MEDICAL AUXILLARY SERVICES
 +
|
 +
|
 +
|-
 +
|Physiotherapist
 +
|
 +
|Central services
 
|-
 
|-
| style="background-color:#95b3d7;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | '''CLINICAL SERVICES'''
+
|Occupational therapist
| style="background-color:#dbe5f1;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | '''Essential'''
+
|
| style="background-color:#b8cce4;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | '''Recommended'''
+
|Central services
| style="background-color:#95b3d7;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | '''SUPPORT SERVICES'''
 
| style="background-color:#dbe5f1;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | '''Essential'''
 
| style="background-color:#b8cce4;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | '''Recommended'''
 
| style="background-color:#95b3d7;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | '''HEALTHCARE ENVIRONMENT/ '''
 
 
 
'''CROSS-CUTTING ISSUES'''
 
| style="background-color:#dbe5f1;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | '''Essential'''
 
| style="background-color:#b8cce4;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | '''Recommended'''
 
| style="background-color:#95b3d7;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | '''PROCUREMENT & OPERATION'''
 
| style="background-color:#dbe5f1;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | '''Essential'''
 
| style="background-color:#b8cce4;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | '''Recommended'''
 
 
|-
 
|-
| style="background-color:#21ff85;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | Adult inpatient Services
+
|Social work
| style="background-color:#dbe5f1;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | x
+
|
| style="background-color:#b8cce4;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
+
|Central services
| style="background-color:#21ff85;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | Administration and Related Services
 
| style="background-color:#dbe5f1;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
 
| style="background-color:#b8cce4;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | x
 
| style="background-color:#21ff85;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | Generic Room Requirements
 
| style="background-color:#dbe5f1;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | x
 
| style="background-color:#b8cce4;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |  
 
| style="background-color:#ffff15;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | Integrated Infrastructure Planning
 
| style="background-color:#dbe5f1;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
 
| style="background-color:#b8cce4;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | x
 
 
|-
 
|-
| style="background-color:#21ff85;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | Clinical and Specialised Diagnostic Laboratory Guidelines
+
|Dietician
| style="background-color:#dbe5f1;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | x
+
|
| style="background-color:#b8cce4;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
+
|Central services
| style="background-color:#21ff85;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | General Hospital Support Services
 
| style="background-color:#dbe5f1;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
 
| style="background-color:#b8cce4;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | x
 
| style="background-color:#21ff85;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | Hospital Design Principles
 
| style="background-color:#dbe5f1;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | x
 
| style="background-color:#b8cce4;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |  
 
| style="background-color:#ffff15;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | Briefing Manual
 
| style="background-color:#dbe5f1;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
 
| style="background-color:#b8cce4;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | x
 
 
|-
 
|-
| style="background-color:#21ff85;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | Mental Health
+
|Audio/speech therapist
| style="background-color:#dbe5f1;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
+
|
| style="background-color:#b8cce4;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | x
+
|Central services
| style="background-color:#21ff85;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | Catering Services for Hospitals
 
| style="background-color:#dbe5f1;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
 
| style="background-color:#b8cce4;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | x
 
| style="background-color:#21ff85;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | Building Engineering Services
 
| style="background-color:#dbe5f1;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | x
 
| style="background-color:#b8cce4;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |  
 
| style="background-color:#21ff85;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | Space Guidelines
 
| style="background-color:#dbe5f1;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
 
| style="background-color:#b8cce4;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | x
 
 
|-
 
|-
| style="background-color:#21ff85;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | Adult Critical Care
+
|Clinical Psychologist
| style="background-color:#dbe5f1;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
+
|
| style="background-color:#b8cce4;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | x
+
|Central services
| style="background-color:#21ff85;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | Laundry and Linen Department
 
| style="background-color:#dbe5f1;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
 
| style="background-color:#b8cce4;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | x
 
| style="background-color:#21ff85;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | Environment and Sustainability
 
| style="background-color:#dbe5f1;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
 
| style="background-color:#b8cce4;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | x
 
| style="background-color:#ffff15;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | Cost Guidelines
 
| style="background-color:#dbe5f1;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
 
| style="background-color:#b8cce4;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | x
 
 
|-
 
|-
| style="background-color:#21ff85;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | Emergency Centres
+
|Radiographer
| style="background-color:#dbe5f1;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
+
|
| style="background-color:#b8cce4;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | x
+
|Central services
| style="background-color:#21ff85;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | Hospital Mortuary Services
 
| style="background-color:#dbe5f1;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
 
| style="background-color:#b8cce4;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | x
 
| style="background-color:#21ff85;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | Materials and Finishes
 
| style="background-color:#dbe5f1;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | x
 
| style="background-color:#b8cce4;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |  
 
| style="background-color:#ffff15;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | Procurement
 
| style="background-color:#dbe5f1;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
 
| style="background-color:#b8cce4;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
 
 
|-
 
|-
| style="background-color:#21ff85;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | Maternity Care Facilities
+
|Pharmacist
| style="background-color:#dbe5f1;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
+
|
| style="background-color:#b8cce4;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | x
+
|Central services
| style="background-color:#21ff85;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | Nursing Education Institutions
 
| style="background-color:#dbe5f1;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
 
| style="background-color:#b8cce4;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | x
 
| style="background-color:#00b0f0;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | Future Healthcare Environments
 
| style="background-color:#dbe5f1;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
 
| style="background-color:#b8cce4;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |  
 
| style="background-color:#ffff15;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | Commissioning Health Facilities
 
| style="background-color:#dbe5f1;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | x
 
| style="background-color:#b8cce4;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | x
 
 
|-
 
|-
| style="background-color:#21ff85;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | Adult Oncology Facilities
+
|Counsellor
| style="background-color:#dbe5f1;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
+
|
| style="background-color:#b8cce4;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | x
+
|Central services
| style="background-color:#21ff85;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | Health Facility Residential
 
| style="background-color:#dbe5f1;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
 
| style="background-color:#b8cce4;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | x
 
| style="background-color:#21ff85;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | Healthcare Technology
 
| style="background-color:#dbe5f1;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
 
| style="background-color:#b8cce4;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | x
 
| style="background-color:#ffff15;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | Maintenance
 
| style="background-color:#dbe5f1;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | x
 
| style="background-color:#b8cce4;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
 
 
|-
 
|-
| style="background-color:#21ff85;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | Outpatient Facilities
+
|NURSING SERVICES
| style="background-color:#dbe5f1;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | x
+
|
| style="background-color:#b8cce4;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
+
|
| style="background-color:#21ff85;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | Central Sterile Service Department
 
| style="background-color:#dbe5f1;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
 
| style="background-color:#b8cce4;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | x
 
| style="background-color:#21ff85;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | Inclusive Environments
 
| style="background-color:#dbe5f1;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
 
| style="background-color:#b8cce4;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | x
 
| style="background-color:#ffff15;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | Decommissioning
 
| style="background-color:#dbe5f1;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | x
 
| style="background-color:#b8cce4;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |  
 
 
|-
 
|-
| style="background-color:#21ff85;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | Paediatrics and Neonatal Facilities
+
|ASD nursing area
| style="background-color:#dbe5f1;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
+
|
| style="background-color:#b8cce4;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | x
+
|Central services
| style="background-color:#21ff85;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | Training and Resource Centre
 
| style="background-color:#dbe5f1;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
 
| style="background-color:#b8cce4;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | x
 
| style="background-color:#21ff85;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | Infection Prevention and Control
 
| style="background-color:#dbe5f1;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | x
 
| style="background-color:#b8cce4;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |  
 
| style="background-color:#00b0f0;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | Capacity Development
 
| style="background-color:#dbe5f1;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
 
| style="background-color:#b8cce4;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
 
 
|-
 
|-
| style="background-color:#21ff85;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | Pharmacy
+
|Operational manager nursing
| style="background-color:#dbe5f1;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | x
+
|1
| style="background-color:#b8cce4;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
+
|
| style="background-color:#21ff85;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | Waste Disposal
 
| style="background-color:#dbe5f1;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
 
| style="background-color:#b8cce4;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | x
 
| style="background-color:#21ff85;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | Information Technology and Infrastructure
 
| style="background-color:#dbe5f1;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
 
| style="background-color:#b8cce4;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | x
 
| style="background-color:#ffffff;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
 
| style="background-color:#dbe5f1;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
 
| style="background-color:#b8cce4;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |  
 
 
|-
 
|-
| style="background-color:#21ff85;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | Primary Healthcare Facilities
+
|Professional nurse
| style="background-color:#dbe5f1;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | x
+
|4
| style="background-color:#b8cce4;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
+
|
| style="background-color:#ffffff;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
 
| style="background-color:#dbe5f1;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
 
| style="background-color:#b8cce4;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
 
| style="background-color:#00b0f0;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | Regulations
 
| style="background-color:#dbe5f1;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | x
 
| style="background-color:#b8cce4;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
 
| style="background-color:#ffffff;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
 
| style="background-color:#dbe5f1;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
 
| style="background-color:#b8cce4;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |  
 
 
|-
 
|-
| style="background-color:#21ff85;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | Diagnostic Radiology
+
|Staff nurse
| style="background-color:#dbe5f1;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | x
+
|4
| style="background-color:#b8cce4;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
+
|
| style="background-color:#ffffff;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
 
| style="background-color:#dbe5f1;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
 
| style="background-color:#b8cce4;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
 
| style="background-color:#ffffff;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
 
| style="background-color:#dbe5f1;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
 
| style="background-color:#b8cce4;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
 
| style="background-color:#ffffff;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
 
| style="background-color:#dbe5f1;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
 
| style="background-color:#b8cce4;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |  
 
 
|-
 
|-
| style="background-color:#21ff85;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | Adult Physical Rehabilitation
+
|Auxiliary nurse
| style="background-color:#dbe5f1;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | x
+
|8
| style="background-color:#b8cce4;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
+
|
| style="background-color:#ffffff;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
 
| style="background-color:#dbe5f1;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
 
| style="background-color:#b8cce4;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
 
| style="background-color:#ffffff;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
 
| style="background-color:#dbe5f1;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
 
| style="background-color:#b8cce4;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
 
| style="background-color:#ffffff;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
 
| style="background-color:#dbe5f1;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
 
| style="background-color:#b8cce4;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |  
 
 
|-
 
|-
| style="background-color:#21ff85;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | Adult Post-acute Services
+
|Housekeeping supervisor
| style="background-color:#dbe5f1;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | x
+
|1
| style="background-color:#b8cce4;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
+
|
| style="background-color:#ffffff;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
 
| style="background-color:#dbe5f1;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
 
| style="background-color:#b8cce4;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
 
| style="background-color:#ffffff;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
 
| style="background-color:#dbe5f1;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
 
| style="background-color:#b8cce4;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
 
| style="background-color:#ffffff;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
 
| style="background-color:#dbe5f1;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
 
| style="background-color:#b8cce4;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |  
 
 
|-
 
|-
| style="background-color:#21ff85;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | Facilities for Surgical Procedures
+
|Household aid
| style="background-color:#dbe5f1;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | x
+
|6
| style="background-color:#b8cce4;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
+
|
| style="background-color:#ffffff;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
 
| style="background-color:#dbe5f1;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
 
| style="background-color:#b8cce4;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
 
| style="background-color:#ffffff;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
 
| style="background-color:#dbe5f1;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
 
| style="background-color:#b8cce4;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
 
| style="background-color:#ffffff;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
 
| style="background-color:#dbe5f1;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
 
| style="background-color:#b8cce4;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |  
 
 
|-
 
|-
| style="background-color:#21ff85;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | TB Services
+
|NIGHT DUTY MANAGEMENT
| style="background-color:#193a61;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | x
+
|
| style="background-color:#193a61;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
+
|
| style="background-color:#ffffff;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
 
| style="background-color:#dbe5f1;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
 
| style="background-color:#b8cce4;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
 
| style="background-color:#ffffff;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
 
| style="background-color:#dbe5f1;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
 
| style="background-color:#b8cce4;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
 
| style="background-color:#ffffff;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
 
| style="background-color:#dbe5f1;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |  
 
| style="background-color:#b8cce4;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
 
 
 
 
 
 
|-
 
|-
|}
+
|Night duty manager
= {{anchor|Toc383682635}} {{anchor|Toc428538811}} {{anchor|Toc383682831}} Colours Legend =
+
|1
 
+
|Central services
 
 
{| style="border-spacing:0;width:4.965cm;"
 
 
|-
 
|-
| style="border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;color:#00000a;" | Consultants
+
|Professional nurse
| style="background-color:#21ff85;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;color:#00000a;" |  
+
|1
 +
|
 
|-
 
|-
| style="border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;color:#00000a;" | Administrators
+
|Staff nurse
| style="background-color:#ffff15;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;color:#00000a;" |  
+
|3
 +
|
 
|-
 
|-
| style="border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;color:#00000a;" | Related documents
+
|Auxiliary nurse
| style="background-color:#00b0f0;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;color:#00000a;" |  
+
|2
 +
|
 
|-
 
|-
 +
|Household aid
 +
|1
 
|}
 
|}
= {{anchor|Toc428538812}} Policy and service context =
 
  
== {{anchor|Toc428538813}} Legislation, policies and international guidance ==
+
==Supporting the caregiver==
 +
</div>
 +
===Recruitment, retention and productivity in staff===
  
=== {{anchor|Toc428538814}} Infection Prevention and Control Legislation ===
+
<div style="color:#00000a;">International research has shown that infrastructure has a part to play in staff recruitment, retention and productivity. South Africa has been experiencing an extended challenge in respect of attracting and retaining qualified healthcare professionals. This challenge is particularly marked in TB–specialist skills because of the additional risk. This risk is not merely perceived. Healthcare workers generally and TB-specialists specifically are exposed to higher risk of infection and higher infection rates than the general population.
 +
Staff is thus a critical factor to take into consideration when DR TB planning facilities. In particular the provision of safe working environments:
  
<div style="color:#00000a;">The National Infection Prevention and Control Policy and Strategy makes specific reference to certain Acts and their relevant regulations, which bear relevance to the development and implementation of these health facility guidelines. These are:</div>* <span style="color:#00000a;">Constitution</span><span style="color:#00000a;">'' of the Republic of South Africa, 1996''</span>. <span style="color:#00000a;">s.2,24,27,36&39.</span>
+
*which address risk from an IPC perspective in a way which is explicit and reassuring;
* <span style="color:#00000a;">''The National Health Act 2003''</span>. <span style="color:#00000a;">(c.61). Cape Town South Africa: Government Gazette.</span>
 
* <span style="color:#00000a;">''The Occupational Health and Safety Act 1993''</span>. <span style="color:#00000a;">s.8(1).</span> <span style="color:#00000a;">Cape Town South Africa: Government Gazette.</span>
 
  
 +
*which provides for physical safety against violent/ disturbed patients; and
 +
*which allow adequate safe storage for personal belongings.
  
 +
Provision of staff housing, recreation facilities and other staff amenities may be an attractive benefit.
 +
</div>
 +
===Additional personnel considerations===
 +
<div style="color:#00000a;">From an infrastructure point of view, it is critical that maintenance posts are established and filled with incumbents who are appropriately skilled to address the specialised needs of DR TB facilities, infection control and healing environments. As with healthcare workers, there are challenges in attracting and retaining skilled artisans, engineers, and health facility specialist maintenance staff, particularly in environments perceived to be high-risk.
 +
While the most significant factor in staff recruitment and retention is salaries and benefits, especially in relation to many overseas destinations, many experts emphasize that pay is not the sole motive for leaving the South African public service. Other factors include poor work environments characterized by heavy workloads, lack of supervision, and limited organizational capacity. There are also environmental considerations; workplaces may be dangerous due to condition, functional or environmental design, or there may be a lack of supplies to protect workers from occupational exposure to diseases like tuberculosis.
 +
</div>
  
<div style="color:#00000a;">Department of Labour, 2001. <span style="color:#00000a;">''Regulations for hazardous biological agents''</span>. (Government notice No. R. 1390 of the Occupational Health and Safety Act, 1993. s.43). Pretoria South Africa: Government Gazette.</div>
+
==Site appraisal==
 +
<div style="color:#00000a;">Where feasible the principle of redevelopment and reuse of existing buildings should be investigated before building new buildings. As a first stage in providing a comprehensive appraisal of the site, the consultant team should collect, collate and prepare a full assessment of accommodation and engineering services at the existing site including:</div>
  
<div style="color:#00000a;">Department of Health, 2003. <span style="color:#00000a;">''Regulations relating to the application of the hazard analysis and critical control point system (HACCP system). ''</span><span style="color:#00000a;">(Government notice No. R. 908 of the Foodstuffs, Cosmetics and Disinfectant Act, 1972. (c.54)). Cape Town South Africa: Government Gazette.</span></div>* <span style="color:#00000a;">''The Environmental Conservation Act 1989''</span>. <span style="color:#00000a;">(c.73). Cape Town South Africa: Government Gazette.</span>
+
===Building layouts===
* <span style="color:#00000a;">''The Foodstuffs, Cosmetic and Disinfectants Act 1972.''</span> <span style="color:#00000a;">(c.45). Cape Town South Africa: Government Gazette.</span>
 
  
=== {{anchor|Toc428538815}} Building legislation ===
+
*existing buildings with measured footprint and scaled spatial layout on site plan;
 +
*current functional allocation (use) of existing buildings;
 +
*level of utilisation of buildings;
 +
*national monument status;
 +
*building condition assessment (high level and quick professional estimate on scale one condemn to five as new);
 +
*evaluate of the level of accessibility of proposed new structures and linkages to existing buildings; and
 +
*evaluation of existing pedestrian and vehicular routes (i.e. staff, visitors, and service vehicular and pedestrian routes) to determine optimum layout of proposed new buildings.
 +
<div style="color:#00000a;">A coloured site map should be prepared by the consultant team using the coding provided below to visualise the suitability of the existing building stock (see figure 8) and the condition of the existing building stock (see figure 9).[[File:Condition assessment coding.png|none|thumb|499x499px|Figure 7: Recommended suitability coding for site appraisal]][[File:Recommended Condition Assessment Coding For Site Appraisal.png|none|thumb|499x499px|Figure 8: Recommended Condition Assessment Coding For Site Appraisal]]
  
<div style="color:#00000a;">The following legislation and regulations impact and provide guidance on the provision and design of healthcare facilities as above:</div>* {{anchor|Toc339898692}} <span style="color:#00000a;">''The Pharmacy Act 53 of 1974.''</span> <span style="color:#00000a;">(c.53). Cape Town South Africa: Government Gazette.</span>
+
===Site Information===
* <span style="color:#00000a;">''The National Environmental Management Act 1998.''</span> <span style="color:#00000a;">(c.107).</span> <span style="color:#00000a;">Cape Town South Africa: Government Gazette.</span>
 
* <span style="color:#00000a;">''Building Regulations and Building Standards Act 1977.''</span> <span style="color:#00000a;">(c.103). Cape Town South Africa: Government Gazette.</span>
 
* <span style="color:#00000a;">South African Bureau of Standards (SABS), 1990.</span> <span style="color:#00000a;">''SANS 10400:1990 Code of practice for the application of the national building regulations.</span> ''<span style="color:#00000a;">Pretoria South Africa: SABS Standards Division.</span>
 
* <span style="color:#00000a;">''Promotion of Equality and Prevention of Unfair Discrimination Act 2000.''</span> <span style="color:#00000a;">(c.4). Cape Town South Africa: Government Gazette.</span>
 
  
=== {{anchor|Toc428538816}} Infection prevention and control and TB management policy and guidelines ===
+
*Major landscaping, trees and features;
 +
*Site access points for staff, patients and service personnel and access constraints;
 +
*Existing fencing and level of security provided;
 +
*Service connection points, main service runs, water tanks (as they are currently being constructed), transformers, substations, generators, etc.; and
 +
*Flood lines, water table levels, site storm water drainage and general potential for flooding.</div>
  
* <span style="color:#00000a;">National</span><span style="color:#00000a;"> Department of Health (NDoH), 2007.</span> <span style="color:#00000a;">''The draft national infection prevention and control policy for TB, MDRTB and XDRTB.''</span> <span style="color:#00000a;">South Africa: NDoH.</span>
+
===Engineering and bulk services===
  
 +
<div style="color:#00000a;">Engineering services
  
 +
*Power: Analysis of existing power supply – types, current load, reliability, capacity, potential for expansion,
  
<div style="color:#00000a;">National Department of Health, 2007. <span style="color:#00000a;">''Management of drug-resistant tuberculosis: Policy guidelines''</span>. [pdf] South Africa: NDoH. Available at: [http://www.search.gov.za http://www.search.gov.za] [Accessed 26 March 2014].</div>
+
*Water supply: Analysis of existing water supply – source/s, storage, condition, current and projected demand,
 +
*Sewage: Analysis of existing sewage reticulation and disposal system, connections, capacity, condition, current and projected load,
 +
*ICT services: Telephones, internet connectivity, intranet connectivity. Analysis of existing supply – types, load, reliability, capacity, potential for expansion,
 +
*Other services as identified by consultant team (gas, steam etc.)</div>
 +
It is recommended that the photographic survey of existing infrastructure be compiled by the consultants.
  
<div style="color:#00000a;">National Department of Health, n.d. <span style="color:#00000a;">''Tuberculosis strategic plan for South Africa, 2007-2011.''</span> [pdf] South Africa: NDoH. Available at: http://www.search.gov.za/info/search.jsp. [Accessed 26 March 2014].</div>=== {{anchor|Toc339898693}} {{anchor|Toc428538817}} South African building practice policy and guidelines ===
+
===Climatic and sustainability considerations===
 +
Prevailing climate conditions should be taken into consideration during the design process. The closest freely available (open source/ public domain) or alternate annual and diurnal temperature, rainfall, wind-speed and direction data should be collected, analysed and used in addressing building performance and patient comfort objectives (see Figure 10). Material specifications and details should address corrosive attributes associated with proximity to the sea.
  
* {{anchor|Toc339898694}} The South African Pharmacy Council, 2004. ''Good pharmacy practice. ''(Board notice 129). Cape Town South Africa: Government Gazette.  
+
Rational peak demand of electricity use and demand management systems should be considered in the design and specification. There should be a split between essential and non-essential electricity use, and emergency backup should be provided for essential services. Separate metering for water and electricity should be provided for the new unit. Refer to [https://www.iussonline.co.za/norms-standards/healthcare-environment IUSS:GNS Sustainability and the environment].    
  
=== {{anchor|Toc428538818}} International design guidance ===
+
===Future development===
 +
Future development for the site should be studied. The consultant team is to provide evidence that a very high level study has been undertaken to ascertain whether or not the proposed facility will likely compromise, limit or enable the proposed development through appropriate means (such as crude scale block positioning on site). The implications of the project on future development should be discussed in an open forum with stakeholders. Consideration should be given to the optimal positioning and size of central services to satisfy the future demand of the hospital site.
  
* <span style="color:#00000a;">American Society of Heating, Refrigerating and Air-Conditioning Engineers (ASHRAE), 1999.</span> <span style="color:#00000a;">''ANSI/ASHRAE standard 52.2-1999 Method of testing general ventilation air cleaning devices for removal efficiency by particle size.''</span> <span style="color:#00000a;">Atlanta USA: ASHRAE.</span>
+
==Additional Project Studies, Approvals and Requirements==
* <span style="color:#00000a;">American Society of Heating, Refrigerating and Air-Conditioning Engineers (ASHRAE), 1989.</span> <span style="color:#00000a;">''ASHRAE standard 62 Ventilation for acceptable indoor air quality.''</span> <span style="color:#00000a;">Atlanta USA: ASHRAE.</span>
 
* <span style="color:#00000a;">American Society of Heating, Refrigerating and Air-Conditioning Engineers (ASHRAE), 2003.</span> <span style="color:#00000a;">''HVAC design manual for hospitals and clinics.''</span> <span style="color:#00000a;">Atlanta USA: ASHRAE.</span>
 
  
 +
===Environmental Impact Assessment (EIA)===
 +
An Environmental impact assessment (EIA) may be required.
  
 +
===Local authority submissions===
 +
The following approvals must be provided, as stipulated by the local authority:
  
<div style="color:#00000a;">Chartered Institution of Building Services Engineers (CIBSE), 1997. <span style="color:#00000a;">''CIBSE applications manual AM10 natural ventilation in non-domestic buildings.''</span> London: CIBSE.</div>
+
*A site development plan (SDP);
 +
* A copy of a set of working drawings;
 +
*A traffic engineer’s report; and
 +
*  A fire department.
  
<div style="color:#00000a;">Chartered Institution of Building Services Engineers (CIBSE), 2000. <span style="color:#00000a;">''CIBSE applications manual AM13 mixed mode ventilation.''</span> <span style="color:#00000a;">London: CIBSE.</span></div>* <span style="color:#00000a;">American Society of Heating, Refrigerating and Air-Conditioning Engineers (ASHRAE), 2009</span>. <span style="color:#00000a;">''ANSI/ASHRAE/ASHE standard 170-2008 ventilation of health care facilities.''</span> <span style="color:#00000a;">Atlanta USA: ASHRAE.</span>
+
===Phasing and decanting===
* QASA, “Know Your Rights” [Accessibility & the Built Environment]
+
Where the project calls for a construction project to be conducted within an existing functional healthcare environment, phasing and decanting plans are required. The appropriate precautionary measures should be taken. Refer to  [https://www.iussonline.co.za/norms-standards/procurement-and-operation IUSS:GNS Decommissioning]. The services currently provided for at the hospital must continue with as little disruption as is reasonably possible. Phased construction and/ or temporary decanting of functions may be required. Should decanting activities be required to accommodate the construction project, then this activity should be planned timeously with all stakeholders’ involvement under the leadership of the briefing authority (or if defined as extraordinary scope of services, principal agent, contractor or other clearly identified party).
* <span style="color:#00000a;">Department of Health and Human Services (Centre for Disease Control and Prevention), 2003.</span> <span style="color:#00000a;">''Environmental control for tuberculosis: Basic upper-room ultraviolet germicidal irradiation guidelines for healthcare setting. ''</span><span style="color:#00000a;">USA: DHHS.</span>
 
* <span style="color:#00000a;">World Health Organisation (WHO), 2009a.</span> <span style="color:#00000a;">''Natural ventilation for infection control in health-care settings.''</span> <span style="color:#00000a;">Geneva Switzerland: WHO</span>
 
* <span style="color:#00000a;">World Health Organisation (WHO), 2009b.</span> <span style="color:#00000a;">''WHO policy on TB infection control in health-care facilities, congregate settings and households''</span>. <span style="color:#00000a;">Geneva Switzerland: WHO</span>
 
  
== {{anchor|Toc428538819}} Service context ==
+
===Commissioning and validation===
 +
Refer to [https://www.iussonline.co.za/norms-standards/procurement-and-operation IUSS:GNS Commissioning].
  
<div style="color:#00000a;">South Africa faces one of the most devastating ''Mycobacterium ''tuberculosis (TB) epidemics in the world, especially in terms of number of TB cases per capita and the total numbers of drug-resistant (DR) TB cases with a prevalence of 450/100 000. It has the third-highest incidence of TB globally (WHO, 2013, p.11). TB, together with HIV/Aids, is South Africa’s leading cause of morbidity and mortality. Furthermore, healthcare workers are at six or more times increased risk of acquiring TB, compared to the background population (Joshi, et al., 2006). </div>
+
===Post-occupancy evaluation===
 +
At one year from practical completion date a post-occupancy evaluation is recommended. All participants in the planning, design, construction and commissioning of the new facility will be required to participate in a half day on-site assessment on whether the project objectives where met. Feedback should be provided to the briefing authority and custodial agent to inform future building projects.  
  
<div style="color:#00000a;">The WHO reports that TB treatment success is low<ref name="ftn1"><sup> </sup>74% compared with 88% for all high burden countries.</ref> and treatment default rates and mortality are high. The high default from TB treatment by patients represents a major problem which, in conjunction with other factors, has led to the emergence of drug-resistant TB (DR TB). Transmission of TB, multi-drug-resistant TB (MDR TB) and extreme (or extensively) drug-resistant TB (XDR TB) in communities and congregate settings has been documented in several studies, frequently linked to HIV infection and affecting vulnerable groups such as children. MDR and XDR TB linked with HIV therefore have the potential to result in an uncontrollable epidemic with devastating economic and social consequences. The epidemiological burden co-infection in South Africa is currently estimated to be in excess of 70% of TB and HIV (WHO, 2009b).<sup> </sup>Provision of poorly designed, maintained and operated infrastructure can exacerbate transmission. Well-designed and well-maintained facilities can reduce the risk of TB infection.</div>
+
===Operation and maintenance manual (O&M)===
 +
The consultant team is required to prepare an operations and maintenance manual for the hospital management and the custodial agent for presentation at practical completion.  The requirements regarding the content of this document will be determined by consensus at a focus meeting with stakeholders to be convened by the principal agent during the construction phase of the project. As a recommendation these manuals may contain the following information:
  
<div style="color:#00000a;">''M. tuberculosis'' is an infectious disease, and is transmitted from person to person exclusively by the airborne route, usually through coughing by a patient with active pulmonary TB. MDR TB is a consequence of human error resulting from combinations of the management of drug supply, patient management, chemotherapy prescription and patient adherence. Treating MDR TB takes longer and requires drugs that are more toxic, more expensive (up to 100 times the cost of treating a drug-susceptible TB patient) and generally less effective, particularly in persons with HIV infection.</div>
+
General information
  
<div style="color:#00000a;">The problem of drug resistance in TB has been compounded by the emergence of XDR TB. Patients with XDR TB are extremely difficult and expensive to treat, with mortality rates between 50 and 70% (CDC, undated).<sup> </sup>In XDR TB patients with HIV co-infection, mortality rates, though improving, remain at about 90% (Neel, et al., 2010).</div>
+
*Description, make, model number of all equipment installed; and
 +
*Contact details of suppliers and /or manufacturers etc.
  
<div style="color:#00000a;">Owing to the District Health system, patients are intended to, and generally do, enter the healthcare system via primary healthcare services - namely the clinics and community health centres (CHCs) and private general practitioners (GPs). It is in these settings that untreated, undiagnosed infectious individuals will inevitably come into contact with susceptible individuals and the risk of transmission is produced. With the introduction of the NHI, the profile of risk in former “private” facilities may change as demographic shifts in access to these services occur. It is therefore in the interest of public health that private-sector facilities are designed, constructed and operated to meet airborne infection control requirements.</div>
+
Design information
  
<div style="color:#00000a;">The National Department of Health (NDoH) Primary Healthcare Directorate advocates the WHO-endorsed approach in the public sector to integrated service provision (WHO, 2011). In the context of this document, this means that individuals seeking care are to receive all appropriate services and interventions at a “one-stop shop”. The common practice of provision of service by diagnosis within a facility (e.g. separation of TB, HIV/Aids, diabetes) or by vertical programmes (different clinical activities on different days) does not support integration of services. This implies that, as far as it is safe and reasonable, most services should be available in most patient/client contact spaces. The integration of services should not subject healthcare workers, clients or the public to undue exposure to airborne pathogens. In particular, when reconfiguring services in existing facilities, due diligence must be paid in ensuring that designs meet required standards for TB infection control. </div>
+
*Design data sheets, containing all design and selection parameters, calculations, selection curves, etc.;
 +
*Settings and values recorded during commissioning;
 +
*Manufacturer's brochures and pamphlets;
 +
*Maintenance data and schedules;
 +
*The lapse of time between services and the description of the service required of each part, lubrication requirements, etc.;
 +
*Schedule of spares; and
 +
*A complete electrical equipment schedule.
  
<div style="color:#00000a;">Most TB patients will access services at the primary healthcare level and will require access on site to '''integrated''' services including, but not limited to: </div>* clinical assessment (consulting room with examination facilities, clinical scale);
+
These will include the description, make, model number, rating and other performance criteria, commissioned (default) settings, including all brochures, pamphlets and maintenance requirements.  Names and contact details of supplier and manufacturer.  
* safe facilities for sample (sputum) collection;
 
* nutrition;
 
* psychosocial services (counselling); and
 
* pharmacy dispensary for chronic medication.
 
  
 +
Detail description of the operation of the electrical, mechanical and control systems including the design information, manufacturer’s brochures and pamphlets, settings and values recorded during commissioning, maintenance data and schedules. Complete sets of:
  
 +
*as built drawings";
 +
*architectural work drawing;
 +
*structural drawings;
 +
*site works drawings;
 +
*electrical reticulation drawings;
 +
*mechanical installation drawings (i.e. all workshop and equipment layout drawings required for the manufacture and erection of the installations); and
 +
*instrumentation/control drawings, such as schematic control diagrams and electronic/ electrical layout drawings.
  
<div style="color:#00000a;">In addition, on- or off-site access to the following services is required</div>* laboratory services (microscopy, culture, GeneXpert, for drug sensitivity), and  
+
='''Operational narrative and user room requirements'''=
* radiology.
 
  
 +
==Daily Schedule==
 +
Table 4: Sample: Current daily activities at long-term care facility
 +
{| class="wikitable"
 +
|TIME
 +
|ACTIVITY
 +
|VENUE
 +
|DESIGN IMPLICATION
 +
|-
 +
|5:00
 +
|Patients  are woken up, urged to complete ablutions, and dress.
  
 +
 
 +
<br />
 +
|Wards
 +
|Each  patient will have his own bedroom and adjoining bathroom.
  
<div style="color:#00000a;">For a quick reference to primary healthcare services for uncomplicated building projects consult [http://www.iussonline.co.za/norms-and-standards/clinical-services/ IUSS:GNS Primary Healthcare]. </div>
+
Each  bed will have an adjacent cupboard for clothes and possessions, and space for  a bedside table.
 +
<br />
 +
|-
 +
|
 +
|Patients  to produce sputum
 +
|Sputum  booth
 +
|1.Monthly  sputum samples taken from  relevant  patients
 +
|-
 +
|07:00
 +
|Nursing  on day shift attend a handover meeting with night staff. This includes  discussing problems, and planning activities for the day.
 +
|Nursing  station
 +
|The  nursing station is a general area where much clinical information is shared  between staff and between disciplines and is a separate area in the ward. Secure cupboards (and a safe), under desk shelving and notice board space are  required.
  
<div style="color:#00000a;">The majority of TB patients will be able to be treated in outpatient mode, with community-based adherence support and regular check-ups at the facility, and regular collection of chronic medication. A small number of patients, such as those who are severely ill, have more than one health concern (co-morbidity), or who are highly infectious may be admitted voluntarily to inpatient care in healthcare facilities. This may be within the general hospital population, in dedicated TB wards or in specialised dedicated facilities. </div>
 
  
<div style="color:#00000a;">Evidence suggests that drug-susceptible TB and MDR TB, when diagnosed and under treatment, become rapidly less infectious (Dharmadhikari, forthcoming). This means that, after as little as 24 hours on '''appropriate''' treatment, TB patients - and even MDR patients - can be regarded as and accommodated with the non-infectious population. No special facilities are required for these patients (if they are short-term patients) and they can be accommodated in accordance with IUSS norms and standards (Refer to [http://www.iussonline.co.za/norms-and-standards/clinical-services/ IUSS:GNS Adult inpatient services]).</div>
+
The  location of the nursing station should allow for a clear view of most of the  ward (through transparent barriers/windows) and it should be as centrally  placed as possible. It should accommodate up to 6 people, and be accessible  to the offices of the other members of the team. Lock-up cupboards, computer  points, telephone; nurse call control panels should be operated from here. In  this ward the nursing station should provide a central place in terms of  staff efficiencies.
 +
|-
 +
|
 +
|
 +
|Matron’s  office
 +
|While  office should be separate from nursing station due to space requirements,  easy communication and visible access should be available. Built-in office  furniture with network points, plugs, telephone, filing space, lockable  cupboards, enough space for at least three filing cabinets, appropriate  storage and availability for ward stationery (some open and others locked),  additional filing workspace, provision of pigeon holes for each for each  patient file board, key cupboard.
 +
|-
 +
|7:30
 +
|Daily  injection given to patients
 +
|Procedure  room
 +
|Nurses  prepare injections according to medicine chart per individual patient.
  
<div style="color:#00000a;">Patients recently enrolled on treatment (<24hours) who are suspected of having XDR, confirmed XDR patients, patients who interrupt treatment, and complicated cases may be considered infectious and negative-pressure isolation is strongly recommended - or, if not possible, at least patient management by respiratory isolation or, if that is not possible, by patient cohorting (patient management by clustering patients with most similar diagnoses). </div>
+
The  room requires a clinical hand-wash basin with clinical taps, lock-up  cupboards, worktops, a patient couch, good lighting
 +
|-
 +
|08:30
 +
|Breakfast  and issuing of medication
 +
|Dining  hall
 +
|This  adjoins the kitchen and food delivery area. The nursing station should be nearby so that medication and general nursing tasks can be co-ordinated  efficiently.
  
<div style="color:#00000a;">The number of DR TB cases in South Africa increased from 10 085 in 2011 to 15&nbsp;419 in 2012 (WHO, 2013, p.52). This is largely due to intensified case finding and investment in laboratory services. However, it represents only a portion of the estimated cases (WHO, 2013).</div>
 
  
<div style="color:#00000a;">Since 2010 the SA National Department of Health has adopted a policy of decentralised management of Multi Drug-resistant TB<ref name="ftn2">2 Prior to 2010, the National policy was for centralised management of drug-resistant TB. All confirmed DR patients were to be referred to a DR TB facility for a period of about six months being subject to two consecutive negative TB cultures taken 30 days apart as identified by the supporting diagnostic laboratory service (NDoH, 2010a, p.8). But whilst this minimum period of six months was sometimes met in practice, and despite high demand for beds, national average length of stay is reportedly closer to 183 days for MDR TB and in excess of 199 days (occasionally over two years) for XDR TB. Following the two consecutive negative TB cultures, the policy stipulated that the patient was to be discharged for ambulatory care at the nearest health facility with ongoing treatment and psychosocial support. Given the total stock of 1 854 for dedicated specialised TB beds (NDoH, 2010a, p.8); the national DR TB bed capacity is ill-matched to fulfil a hospitalisation policy. As only under one third of patients could be accommodated, either other patients are displaced, are treated in their communities, or alternatively remain untreated. The available DR TB dedicated beds have in most instances been established either within existing hospital wards or from reinstated old TB-sanatoria</ref>. In addition to outpatient services, there is a requirement for inpatient hospital facilities:</div>* for all types of TB patients (pulmonary, extra-pulmonary, etc.) requiring acute treatment for TB or other comorbidities
+
Food  will be brought from a central kitchen located elsewhere in the hospital, but  facilities for re-heating and to make hot beverages need to be available.
** within patient populations of general hospitals,
 
** In dedicated wards at general hospitals for acute episodes, and
 
** at specialised hospitals (long-term accommodation) for sub-acute and palliative care for patients who are not best served by community-based care, for various reasons.  
 
  
 +
As  patients mostly will proceed to the dining area from various other activity  areas (sleeping, clinic, recreational, OT etc.) it will have to be in a  central location, easily accessible from other patient areas.
  
 +
Food  must be delivered through a dedicated staff access point that allows for  minimal patient contact.
 +
<br />
 +
|-
 +
|09:30  – 12:30
 +
|Therapeutic  activities
 +
|
 +
|
 +
|-
 +
|
 +
|Medical  officer
  
<div style="color:#00000a;">Inpatient beds for TB services have frequently been provided by converting old wards and sanatoria as a quick solution to address at least part of the pressing need. In many instances building infrastructure has been modified or retrofitted with the intention of making it suitable. However, because beds are provided in this reactive way, the infrastructure is frequently poorly aligned with current best infection-prevention and ‑control practice and patient-centred care. </div>
+
The  ward will have at least one medical officer.
 +
|Consulting  room
 +
<br />
 +
|These  should have enough space for interviewing at least 3 people, as well as a  desk, examining coach and x-ray box.
 +
<br />
 +
|-
 +
|
 +
|Occupational  Therapy (OT)
 +
|Games  room and lounge
 +
|During  the day most patients will be allowed to attend the OT programme.
 +
|-
 +
|
 +
|Psychologists  & Social Workers
  
<div style="color:#00000a;">South African healthcare workers are increasingly becoming aware of the need to implement and manage infection-control measures for preventing the spread of infectious diseases in healthcare settings; however, due to lack of resources, inadequate facility design and the lack of environmental controls, the means for achieving adequate infection-prevention and -control are not always found. </div>
+
Interviews,  psychotherapy and counselling with patients or their families (often  together) occur daily, usually by appointment.
 +
|Counselling  rooms
 +
<br />
 +
|Each  office will need built-in desks, computer and telephone points, and secure  storage space.
 +
|-
 +
|12:30  – 13:30
 +
|Lunch  and using of medication
 +
|Dining  hall
 +
|
 +
|-
 +
|13:30  – 14:00
 +
|Rest  period
 +
<br />
 +
|General  rest areas
 +
|Some  patients may retire to their rooms for a brief period, but most will be in  general areas (lounge, restricted outdoor areas).
 +
|-
 +
|14:00  – 16:30
 +
|Continuation  of many morning activities
 +
|
 +
|
 +
|-
 +
|
 +
|Sport  and Recreation
 +
|Outdoor  field
 +
|These  patients will have easier access to outdoor areas.
 +
<br />
 +
|-
 +
|
 +
|
 +
|Indoor  group area
 +
|For  use for group leisure.
 +
|-
 +
|
 +
|
 +
|Lounge
 +
|A  comfortable furnished area containing a TV, board games (such as Kerem). This  area has to be fully visible from the nursing station. Public telephones  should be situated nearby. It may be helpful if this was close to the dining  area.
 +
|-
 +
|
 +
|Visiting
  
<div style="color:#00000a;">There have been both legal and ethical challenges posed to TB hospitalisation (Singh, Upshur and Padayatchi, 2007; London, 2009). Media have reported incidents of patients rioting and absconding (Dugger)<sup> </sup>which attested to the unpopularity of the policy and the unsuitability of the arrangements, including - though by no means limited to – the building infrastructure provided. </div>
+
Families,  friends (and occasionally others) are allowed to visit during two afternoons  per week and each evening between 19:00 to 20:00
 
+
|Visitors  area
<div style="color:#00000a;">The NDoH has subsequently recognised the need to provide recreational, occupational and educational facilities for patients that require specialised long-term DR TB treatment (NDoH, 2007b, p.25). Social support should also be provided for all patients and their families whilst hospitalised. In the past TB facilities were simply not designed or built to address these needs. This must be recognised when assessing precedent or in identifying case study examples.</div>
+
|Although  visiting times are regulated, families here have easier access to the patients, and there does not have to be a strict separation between patients  and visitors.
 
+
|-
[[Image:|top]]
+
|16:30  – 17:30
 
+
|Supper
{{anchor|Toc428538998}} Figure 1: Centralised management of MDR TB
+
<br />
 
+
|Dining  area
Consequently the National Department of Health expanded its approach in adopting a multi-faceted decentralisation policy in future according to the following health framework for DR TB management (see ''Decentralised Management of Multi Drug Resistant TB – a Policy Framework for South Africa''). According to this framework (see Figure 3), for a successful decentralised MDR TB programme, the following should be provided in inpatient care facilities in order to ensure adequate infrastructure and infection control measures:* Well ventilated consulting room
+
|Activities  as for other mealtimes.
* Well ventilated waiting area
 
* Well ventilated rooms that can accommodate from one to six patients
 
* Distance between beds not less than 1.2 m
 
* Administration control measures of infection control in place
 
* UVGI lights and extractors fans where possible<ref name="ftn3"> The National Department of Health National Health Council declared a moratorium on procurement of UVGI for use in public health establishments in SA in June 2011</ref>
 
* Respiratory protection tools available: surgical masks, N95 respirators
 
 
 
 
 
 
 
<div style="color:#00000a;">These policy requirements will go some way to addressing the twin objectives of patient-centred care and effective infection prevention and control in the emerging pandemic. However, there are additional planning, design, management and maintenance considerations to reach best practice standards and these are discussed in detail below.</div>= {{anchor|Toc428538820}} Understanding transmission to manage risk =
 
 
 
== {{anchor|Toc339898697}} {{anchor|Toc428538821}} Transmission of M. Tuberculosis ==
 
 
 
<div style="color:#00000a;">In healthcare settings, physicians, nurses, general hospital staff, fellow patients and visitors are at a high risk for TB infection because they share the same breathing space as infectious patients: the transmission of TB disease is through the airborne route. Varicella-zoster virus, measles virus, and smallpox virus can also be transmitted by the airborne route, and mitigated with the means described in this document, but do not currently pose a comparable public health concern. </div>
 
 
 
<div style="color:#00000a;">When the droplets produced by an infected person are inhaled by a susceptible person, TB may be contracted. However, this alone does not seem to account for observable instances of transmission. There is a widely accepted theory - the droplet-nucleus hypothesis - that infectious droplet nuclei containing tubercle bacilli may remain suspended in air for prolonged periods of time, potentially long after the infector has left the room. This leads to a high risk of infection in congregate settings (shared spaces). This risk cannot be eliminated. However, expert consensus is that with adequate ventilation or air purification the risk can be reduced. Here is a brief explanation for the transmission theory<sup> </sup>(Riley and O’Grady, 1961). </div>
 
 
 
<div style="color:#00000a;">The bacterium, ''M.&nbsp;tuberculosis'', becomes aerosolised in small droplets of water or bodily fluid when a person with the disease of the lung coughs, sneezes, laughs or sings. Many of the smallest respiratory droplets dry into “droplet nuclei” and become airborne following room air currents is described. Infection can occur when the droplet nuclei containing the bacterium are inhaled. </div>
 
 
 
<div style="text-align:center;">[[Image:|top]]</div>
 
 
 
{{anchor|Toc428538999}} Figure 2: Coughing generating aerosols - Source Jennison 1942
 
 
 
<div style="color:#00000a;">''M.&nbsp;tuberculosis'' infection is different from TB disease. People having the infection without disease (latent TB) have been infected by the ''M.&nbsp;tuberculosis'' bacterium. They are not symptomatic because their body’s immune system has encapsulated the infectious material in the lung, where it is held dormant. They cannot spread the bacterium or disease to others when in this phase. However, people with infection may reactivate a dormant focus in the future, leading to disease.</div>
 
 
 
<div style="color:#00000a;">The infection turns to disease when the body can no longer contain the infectious material in the lung. The infection then spreads, usually within the lung (where it is called pulmonary TB) and possibly to other areas of the body. This spread usually shows up as chronic respiratory symptoms such as cough and fever. People with TB disease of the lungs can therefore transmit the infectious bacterium.</div>=== {{anchor|Toc428538822}} Disease status ===
 
 
 
<div style="color:#00000a;">TB patient status could at any point:</div>* be actively diseased and infectious;
 
* be simultaneously infected by more than one strain;
 
* be diseased and undergoing treatment;
 
* be recovered after undergoing therapy;
 
* be developing resistance while undergoing therapy;
 
* have latent disease;
 
* have relapsed into disease;
 
* be re-infected;
 
* be immune; or
 
* have additional related/ unrelated medical conditions (co-morbidity)
 
 
 
 
 
 
 
<div style="color:#00000a;">Determining the current status of any given patient or transition times between statuses is problematic (given lags in diagnosis, individual patient responses etc.).</div>
 
 
 
Table 2: Drug resistance TB (CDC, 2010<ref name="ftn4"> <span style="color:#00000a;">CDC, 2010.</span><span style="color:#00000a;">'' CDC self-study modules on tuberculosis, 1-5. ''</span><span style="color:#00000a;">(Module 1- Transmission and pathogenesis of tuberculosis). Atlanta, GA:CDC. Available at: </span>[http://www.cdc.gov/tb/publications/slidesets/selfstudymodules/pdf/ParticipantGuide1.pdf http://www.cdc.gov/tb/publications/slidesets/selfstudymodules/pdf/ParticipantGuide1.pdf]<span style="color:#00000a;"> [Accessed 27 March 2014)</span></ref>, slide number 28)
 
 
 
 
 
{| style="border-spacing:0;width:14.87cm;"
 
 
|-
 
|-
| style="background-color:#009999;border-top:1.5pt solid #000001;border-bottom:0.5pt solid #000001;border-left:1.5pt solid #000001;border-right:0.5pt solid #000001;padding:0cm;" | '''Mono-resistant'''
+
|17:30  – 19:00
| style="border-top:1.5pt solid #000001;border-bottom:0.5pt solid #000001;border-left:0.5pt solid #000001;border-right:1.5pt solid #000001;padding:0cm;" | Resistant to any one TB treatment drug
+
|Leisure  time
 +
|Lounge
 +
|Access  to enclosed courtyards allows patients to smoke and relax in the restricted  outdoors before retiring to sleep.
 
|-
 
|-
| style="background-color:#009999;border-top:0.5pt solid #000001;border-bottom:0.5pt solid #000001;border-left:1.5pt solid #000001;border-right:0.5pt solid #000001;padding:0cm;" | '''Poly-resistant'''
+
|18:00
| style="border-top:0.5pt solid #000001;border-bottom:0.5pt solid #000001;border-left:0.5pt solid #000001;border-right:1.5pt solid #000001;padding:0cm;" | Resistant to at least any 2 TB drugs (but not both isoniazid and rifampin)
+
|Nursing  handover to night staff
 +
<br />
 +
|Nursing  station
 +
|The  same as in the morning
 
|-
 
|-
| style="background-color:#009999;border-top:0.5pt solid #000001;border-bottom:0.5pt solid #000001;border-left:1.5pt solid #000001;border-right:0.5pt solid #000001;padding:0cm;" | '''Multidrug-resistant '''
+
|19:00  – 21:30
 +
|Preparation  for sleep
  
'''(MDR TB)'''
+
Dispensing  of night medication
| style="border-top:0.5pt solid #000001;border-bottom:0.5pt solid #000001;border-left:0.5pt solid #000001;border-right:1.5pt solid #000001;padding:0cm;" | Resistant to at least isoniazid and rifampin, the 2 best first-line TB treatment drugs
+
|Lounge  and sleeping areas
 +
|Usually  a snack and hot drink is given to patients. Many watch TV, others socialise  or smoke (the latter activity will take place in designated courtyard areas  that adjoin onto the ward, but without direct access to the general campus  area).
 
|-
 
|-
| style="background-color:#009999;border-top:0.5pt solid #000001;border-bottom:1.5pt solid #000001;border-left:1.5pt solid #000001;border-right:0.5pt solid #000001;padding:0cm;" | '''Extensively'''
+
|22:00  – 07:00
 
+
|Night  activities
'''drug-resistant '''
+
<br />
 +
|Sleeping  areas,
  
'''(XDR TB)'''
+
Nursing  station
| style="border-top:0.5pt solid #000001;border-bottom:1.5pt solid #000001;border-left:0.5pt solid #000001;border-right:1.5pt solid #000001;padding:0cm;" | Resistant to isoniazid and rifampin, PLUS resistant to any fluoroquinolone AND at least 1 of the 3 injectable second-line drugs (e.g., amikacin, kanamycin, or capreomycin)
+
|
|-
 
 
|}
 
|}
=== {{anchor|Toc339898700}} {{anchor|Toc428538823}} Manifestations of TB  ===
 
  
<div style="color:#00000a;">TB is an infection caused by ''Mycobacterium tuberculosis'' also referred to as tubercle bacilli. TB most commonly affects the lungs, producing pulmonary TB. It can however spread to almost any part of the body including lymph glands, joints, kidneys and bone called extra-pulmonary TB. Pulmonary TB is the manifestation of most concern to built environment professionals as it produces greatest risk for transmission to others.</div>
+
==User room requirements==
 +
Refer to [https://www.iussonline.co.za/norms-standards/healthcare-environment IUSS:GNS Generic room requirements] and [https://www.iussonline.co.za/norms-standards/clinical-services IUSS:GNS Primary healthcare].
  
==== Drug-susceptible TB ====
+
===TB outpatient services===
 +
Discharged patients need to be seen for follow-up visits in their communities or at facility-based outpatients department (OPD) usually every two months or so.  Treatment for newly diagnosed and uncomplicated MDR TB and TB patients is typically initiated by clinical staff at OPD, and in accordance with policy decentralised management of TB treated in the community. Complicated cases and XDR patients may be admitted into the inpatient accommodation units through the OPD unless a dedicated admissions facility is provided.
  
<div style="color:#00000a;">By far the majority of TB cases are susceptible to widely accessible, inexpensive drugs. It is generally curable if treatment is completed.</div>
+
Paediatric patients may be seen for follow-up at paediatric wards or at the general OPD, depending on organisational structure. In small facilities the outpatient department can share clinical support services for inpatient care. Depending on patient loads and institutional preference, a dedicated OPD can be provided with similar facilities to clinical inpatient and support services.
  
==== {{anchor|Toc339898701}} Pre-MDR TB  ====
+
Care should be taken to avoid enclosed congregate settings (such as waiting areas) where possible. Where these are required, they should be regarded as high risk for airborne contamination.
  
Drug resistance (see  can only be defined through laboratory confirmation of in-vitro resistance to one or more anti-TB drugs. Results are defined as follows:* Mono-resistant TB: in patients whose infection isolates of M. tuberculosis are confirmed to be resistant to one first line anti-TB drug.
+
====Consulting room====
* Poly-resistant TB: TB in patients whose infection isolates are resistant in vitro to more than one first line drug, other than isoniazid and rifampicin.
+
The consulting room is used by doctors and nursing staff for interviewing and examining patients, and to prescribe treatment for their condition. The doctor or certified nurse practitioner discusses the patients’ symptoms and records her case history.  The patient sits on a chair during this stage and if a physical examination is necessary, lies on an examination couch.  Once on the couch, the doctor or certified nurse practitioner examines the patient standing on the patients’ right hand side using medical supplies and instruments on an instrument trolley placed next to the head of the examination couch.  The doctor or certified nurse practitioner may dispense medicine or instruct the patient to proceed to the treatment room for further medical treatment.  Privacy is required during the consultation.
  
 +
One consulting room should be provided per 30 patient beds or part thereof. The consulting rooms should be standard size. The consulting rooms requires a clinical hand-wash basin with a soap dispenser and paper towel holder, a desk and chair, two patient chairs, an examination couch with a curtain screen, a place to hang clothing, examination lights, access to shared x-ray viewing facility, wall mounted blood pressure monitors, telephone and computer and network connectivity. The room must have a desk with cupboard for the nurse/clinicians’ own personal belongings and a cupboard for standard forms.  A separate cupboard must be in this room to provide for equipment and medicine necessary for procedures. Each room must be provided with a pinning board 900 x 900. An examination couch with an exam lamp is to be provided. Provide space next to the couch for a medicine and instrument trolley. Curtain tracks should be provided around the examination couch for visual privacy for patient being examined, if appropriate.
  
 +
====Counselling room====
 +
The counselling rooms must be the same size as the consulting rooms and correctly handed for use as consulting rooms should the need arise. The counselling rooms require a desk and chair, with telephone, shelves, IT and a network point, clinical hand-wash basin, soap dispenser and two easy chairs for counselling purposes.
  
==== {{anchor|Toc339898702}} MDR TB ====
+
====Diagnostic radiology services====
 +
Diagnostic radiology services (chest x-rays) of all patients may be routinely required for diagnosis, during treatment and in follow-up. Baseline x-rays of all the staff and annually as part of the hospital’s infection prevention and control programme. Diagnostic radiology should be provided on-site or at a nearby referral facility. Refer to [https://www.iussonline.co.za/norms-standards/clinical-services IUSS:GNS Diagnostic radiology]. Mobile x-ray services are a suitable alternative where fixed radiology equipment is not available and if not provided at a nearby referral facility.
  
<div style="color:#00000a;">MDR TB is active TB involving ''M. tuberculosis'' organisms that are resistant to at least isoniazid and rifampicin, the two most powerful anti-TB agents. An MDR TB strain can be resistant to more than these two antibiotics and in most cases it is resistant to first line drugs. </div>
+
====Sputum collection and induction====
 +
Sputum collection is a process whereby a specimen of sputum, liberated from the lungs, is collected. In many adults this process is readily achieved, however, in younger children and adults who cannot liberate sputum spontaneously, sputum induction is performed. Sputum induction is a process whereby sputum is liberated from the lungs using sterile water or hypertonic saline to irritate the airway, which promotes coughing, to produce a sputum specimen (Francis J Curry National Tuberculosis Centre, 1999).  
  
==== {{anchor|Toc339898703}} Pre-XDR TB ====
+
It is advised that sputum collection be conducted in an area which provides privacy, for patient dignity, but also conducted under observation of a clinician, should the patient go require support and in order to ensure sample integrity (that the sputum is from the individual). As sputum collection is a high risk procedure, good administrative and environmental control measures for the designated sputum collection area is essential for the safety of healthcare workers and patients.
  
<div style="color:#00000a;">Pre-XDR TB is MDR TB which is resistant to either a fluoroquinolone or an injectable, but not both. </div>
+
The functional area for sputum collection should comprise a covered area, clinical hand-wash basin, soap dispenser and counter top and, if sputum induction is performed in the same space, a splash-proof power point for a nebulizer.
  
==== {{anchor|Toc339898704}} XDR TB ====
+
Sputum collection should be performed in a designated area. At naturally ventilated primary healthcare clinics and community healthcare centres, or any other single-storey naturally ventilated healthcare establishment, sputum collection should preferably be performed in a designated '''outside''' area. The “sputum booth” should be positioned within view of the nurse’s station, but should be at least four meters away from the nearest building. '''Sputum should not be collected in patient toilets or consulting/counselling rooms'''.  Details of an outdoor sputum booth are available in ANNEXURE 2.
  
<div style="color:#00000a;">XDR TB is defined as TB with resistance to isoniazid and rifampicin, and - in addition to any fluoroquinolone, - to at least one of the three following injectable drugs used in anti-TB treatment: capromycin, kanamicyin and amikacin. Unlike TB and MDR TB patients, XDR TB patients are infectious even when on treatment and their drug-resistant strain can be transmitted directly to susceptible individuals. In other words, infection with a drug-resistant (including an XDR) strain of TB is possible without having contracted TB previously. </div>
+
In a mechanically ventilated healthcare facility, rooms having characteristics of airborne infection isolation rooms (AIIR) can be used for sputum collection. These rooms should be ventilated with 80 L per second per person of outside air or the requirements of the National Building Regulations, whichever is greater (SANS 10400 Part O, Table 2, as amended) and are to be maintained at negative pressure relative to the adjacent space, with a pressure differential in the order of -5 Pa. These rooms should preferably be served by full fresh air systems, or in the case of recirculating systems, the exhaust air should be HEPA filtered (EN1822 H13).  
  
==== {{anchor|Toc339898705}} Paediatric patients  ====
+
Special, purpose-built sputum booths, also referred to as Local Exhaust Ventilation (LEV) devices can also be used for sputum collection. These devices may be portable, where they are beneficial in multi-storey healthcare facilities, where a single sputum booth can be used for the whole facility. Details of a mechanically ventilated sputum booth are available in ANNEXURE 1.
  
<div style="color:#00000a;">Children can contract any of the strains that adults can and manifest TB in all forms that adults present. There is consensus that whilst small children may have less lung capacity to develop velocities required for aerosolisation this has not been proven and is not universally true. Older, larger children are more likely to have transmission patterns like adults. </div>=== {{anchor|Toc428538824}} {{anchor|Toc339898706}} Origin of airborne infection ===
+
A patient is seated in a chamber where he/she produces a sputum specimen. Fresh air, preferably filtered, is supplied overhead, and exhausted from the chamber at low level. The exhaust air is passed through an H13 HEPA filter to remove the airborne contaminant, and is passed back to the room.  To ensure the chamber is safe for the next patient, a time-lag between one patient and the next should be calculated and stipulated, based on the validated clean-up rate of the sputum booth (SANS 14644-3). Downflow booths are preferred as this provides the most efficient contaminant removal. For reliable operation, downflow velocities of 0.35-0.45 m/s should be maintained in the booth with the door closed.
 +
[[File:An illustration of local exhaust ventilation device .png|none|thumb|346x346px|Figure 9: An illustration of local exhaust ventilation device (sputum booth)]]
 +
To ensure that AIIRs and LEVs operate as designed, a good maintenance plan is essential. This involves maintenance of pre-filters and HEPA filters, general ventilation maintenance, and standard daily checks to ensure downward and inward airflow is maintained. These checks are simple, and may be performed with incense sticks or smoke /vapour generating ventilation tubes. Maintenance is critical in LEVs, as failure to maintain the device operating as designed could result in contaminated air being passed into occupied zones. Since ducted UV lights can fail catastrophically without any indication, it is not recommended that the HEPA filters considered for LEV systems be substituted with only in-duct UV lights.
  
<div style="color:#00000a;">Organism-bearing particles are liberated into the air primarily from activities involving the respiratory tract such as sneezing and coughing. In quiet breathing, very few organisms are liberated, but in talking, coughing and especially in sneezing, large numbers of droplets, many of which contain organisms, are ejected. The high velocity of air passing over the respiratory tract shears off a profusion of small droplets which are forcibly ejected into the air.</div>
+
Where sputum collection or induction is performed, signage informing patients about the associated procedure should be considered. This should include:
  
<div style="color:#00000a;">The size of the droplets swept by an air current from the surface of a liquid is determined principally by the velocity of the air and the surface tension of the liquid. As the air velocity increases, the size of the droplets decreases until above 100 m/s where the diameter of the water droplets approaches at least 10 microns (μm). In sneezing and coughing, the peak air flow in the bronchi approaches 300 m/s and the droplets are in the order of six μm in diameter.</div>
+
#Instructions inside the sputum collection booth about the sputum collection procedure.
 +
#Time-lags between patients producing a sputum specimen in the same booth.
 +
#Reminders to healthcare workers to wear respirators in the sputum collection area.
  
<div style="color:#00000a;">After being expelled from the TB patient’s mouth and nose, even the smallest droplets begin to fall. Generally, the large particle droplets<ref name="ftn5"> greater than 5 μm</ref> fall to the ground where they become mixed with dust (see Figure 11). The fate of the smaller droplets is however, quite different. Droplets below a certain aerodynamic diameter fall slowly and lose water rapidly and evaporate almost instantaneously. In this way the droplet diminishes in size until the concentration of dissolved substances is such that the vapour pressure which the droplet exerts equals that of the atmosphere. </div>
+
====Pharmacy====
 +
Pharmacist and assistants pharmacists are required to prepare and dispense medication, and manage medicine stock for inpatient and outpatients services. Refer to [https://www.iussonline.co.za/norms-standards/clinical-services IUSS:GNS Pharmacy]. The pharmacy may be responsible for community outreach programmes for community-based care and may be responsible for distributing medication to downstream referral facilities.
  
<div style="color:#00000a;">The residue of the droplet after evaporation, which may contain the micro-organism(s) from the respiratory tract, has been called the droplet nucleus. Droplet nuclei are so light that they may not settle in the gentlest of moving air of occupied spaces and may remain suspended for extended periods of time. This poses risk to building occupants until the particles are removed by ventilation or through other air disinfection.</div>
+
====Laboratory services====
 +
Refer to [https://www.iussonline.co.za/norms-standards/clinical-services IUSS:GNS Clinical and specialised diagnostic laboratory guidelines]
  
<div style="color:#00000a;">Tubercle bacilli cannot be cultured from the air because of their low concentration and slow growth rate relative to other micro-organisms. The slow growth of tubercle bacilli and low concentrations in air require long sampling periods during which culture media, even with selective antibiotics to suppress microbial growth, become overgrown with fungi and other bacteria. Molecular amplification methods can detect nucleic acid from tubercle bacilli in the air, but cannot distinguish living from dead organisms<ref name="ftn6"> Although emerging research indicates that this may soon be possible.</ref> nor quantify those with infectious potential. It is therefore not possible to measure infectiousness of TB or DR TB directly, nor can the efficacy of environmental infection control interventions to reduce or prevent transmission be measured directly.</div>
+
===Patient accommodation===
 +
Table 5: Patient accommodation cohorts for short-term accommodation
 +
{| class="wikitable"
 +
|Service type
 +
|Accommodation
 +
|Occupancy
 +
|Notes
 +
|-
 +
|Paediatric
  
<div style="color:#00000a;">Also, when considering airborne contagion, it is not well understood is how many infectious particles, or droplet nuclei, are required to infect. Compounding this uncertainty there are marked differences in the numbers of organisms liberated by coughing and sneezing of individual infectors. Despite these limiting factors, which are the subject of on-going speculation, investigation and scientific research, the general principles of contagious potential applies.</div>
+
(unisex)
 
+
|
<div style="color:#00000a;">In any form of contagion the probability of infection increases with the degree of exposure to the infection (see Figure 3: Contagion). The factors implicated in the potential to be contagious are:</div>* the presence of susceptible members of the community
+
|
* the presence of infectious cases
+
|
* the effective contact rate (opportunities for transmission) influenced by variables which in the airborne example are factors such as:
+
|-
** exposure time
+
|TB and MDR TB (female)
** breathing rates of infector and susceptible
+
|
** virulence (strength) of bacteria
+
|
** environment (qualities of the room, such as humidity, air volume)
+
|
 
+
|-
 
+
|TB and MDR TB (male)
 
+
|
<div style="text-align:center;">[[Image:|top]]</div>
+
|
 
+
|
{{anchor|Ref268777545}} {{anchor|Toc428539000}} Figure 3: Contagion<span style="color:#ff0000;"> </span>
+
|-
 
+
|XDR (male/unisex)
<div style="color:#00000a;">{{anchor|Toc153254793}} The probability of infection (1- e -Iqpt/Q) as a function of degree of exposure to infection Iqpt/Q (The point where Iqpt/Q =1 is identified by the co-ordinates).</div>
+
|
 
+
|
<div style="color:#00000a;">The number of new cases occurring in an epidemic is directly related to the number of susceptible persons, the number of infectors and the effective contact rate. Respiratory droplets (for example flu), with their limited flight, range and dependence on the simultaneous presence of source and subject, behave as a form of effective contact. Droplet nuclei, with their prolonged suspension and rapid dispersion may provide an enhanced exposure and effective contact rate. It was for this reason that Wells called droplet-nucleus-borne infection, airborne contagion. </div>
+
|
 
+
|-
<div style="color:#00000a;">DR TB can be acquired in two different ways: primary and secondary modes. Primary transmission is caused by person-to-person transmission of a drug-resistant strain of the TB bacilli. Secondary infection develops during TB treatment, either because the patient was not treated with the appropriate treatment regimen or because the patient did not follow the treatment regimen as prescribed. Approximately 1.8% of new TB and 6.7% of retreatment cases results in MDR. DR TB can be transmitted in the same way as drug-susceptible TB.</div>
+
|XDR  (female/unisex)
 
+
|
<div style="color:#00000a;">Evidence suggests virulence of DR TB is the same as for drug-susceptible strains. However, DR TB is more difficult to treat because it can survive in a patient’s body even after treatment with the first-line drugs is started. A key challenge with current tuberculosis diagnosis technique is the delay in culturing this slow-growing organism in the laboratory. Blood or sputum culture results can take between four and twelve weeks. Because there has historically been a delay in diagnosing drug-resistant TB, these patients may be infectious for a longer period of time. Rapid screening tools for drug-resistance (GeneXpert) have been approved by the WHO, and are now in widespread use in South Africa. </div>
+
|
 
+
|
<div style="color:#00000a;">The infectious droplet-nuclei which may remain suspended in air for prolonged periods of time and the respiratory droplets leads to a high risk of infection in shared spaces. This risk cannot be eliminated. However, expert consensus, based on strong circumstantial evidence, is that with adequate planning, design, management and maintenance, this risk can be reduced or managed. International best practice indicates that patients with drug-resistant TB should be closely monitored when commencing treatment and they should remain in isolation until they are no longer infectious.</div>
+
|-
 
+
|XDR  paediatrics (unisex)
The following invasive procedures should be regarded as high risk situations for transmission (Culver, Gordon and Mehta, 2003):* bronchoscopy,
+
|
* sputum collection and induction, and
+
|
* administration of aerosolized medications
+
|
 
+
|-
=== {{anchor|Toc339898707}} {{anchor|Toc428538825}} Infection prevention and control hierarchy ===
+
|Former  correctional services/(unisex isolation)
 
+
|
<div style="color:#00000a;">The emergence of DR TB has highlighted the need for strengthened infection prevention and control (IPC) measures to interrupt the transmission of TB in healthcare settings. There is has been no observed difference between the speed of transmission of susceptible TB and resistant MDR or XDR TB. For this reason, infection control measures apply to all TB strains irrespective of the resistant pattern. </div>
+
|
 
+
|
<div style="color:#00000a;">The requirement for controls to minimise the risk of spreading this airborne disease is legislated in the ''OHS Act'' (Act 85 of 1993). ''The National Department of Health Tuberculosis Strategic Plan for South Africa, 2007-2011'', in the ''Decentralised Management of Multi Drug Resistant TB – a Policy Framework for South Africa'' and various international agencies such as the WHO, Centers for Disease Control and Prevention in the USA provide policy guidance for infection control practices. Common to the last two is the need to base these practices on the hierarchy of control measures. These are arranged from most to least important as follows:</div>
 
 
 
<div style="color:#00000a;">Administrative measures such as work practices, policies and procedures, education and training, TB screening of healthcare workers, and appropriate utilisation of existing facilities, the implementation of environmental (engineering) controls, and the use of personal respiratory protection in specified areas where there is a high risk of exposure.</div>=== {{anchor|Toc339898708}} {{anchor|Toc428538826}} Administrative IPC measures ===
 
 
 
<div style="color:#00000a;">Appropriate architectural design to support the functional and operational processes required for the first level of the hierarchy of control, namely the administrative measures, must be investigated and ensured via the design and layout of the facility as a priority. The first and most important level of control is the use of administrative control measures is to prevent conditions for the spread of contagion, by limiting number and duration of encounters between susceptible members of the community and infectious air. Ideally, if the risk of exposure can be eliminated, no further controls are needed. Unfortunately, the risk usually cannot be eliminated, but it can be significantly reduced with proper administrative control measures. In any healthcare setting, important administrative control measures include:</div>* early diagnosis of potentially infectious TB patients,
 
* prompt separation or isolation of infectious TB patients, and
 
* the prompt initiation of appropriate anti-tuberculosis treatment.
 
 
 
 
 
 
 
<div style="color:#00000a;">[[Image:]]Other important administrative control measures include an assessment of the risk of transmission in the facility, the development of a TB infection control plan that details in writing the measures that should be taken in a given facility, and adequate training of healthcare workers to implement the plan.</div>
 
 
 
 
 
{{anchor|Ref350167278}} {{anchor|Toc428539001}} {{anchor|Ref350167261}} Figure 4: CSIR generic model illustrating functional separation
 
 
 
<div style="color:#00000a;">From a facility planning and design perspective, administrative control measures can be addressed through the spatial separation techniques of functional separation, respiratory isolation, and separation for patient management. Functional separation (see Figure 4) provides for the physical separation of functionally discrete parts of the facility. Administrative functions and clinical support (admissions and discharge, accounts and finance, information services, medical records) should be substantially or exclusively reserved for staff use, and zoned separately. Nursing services, outpatient facilities, allied health services (radiology, pharmacy, rehabilitation) and visitors’ spaces may be used by both patients, staff and visitors, but should be laid out and managed so that the appropriate infection control measures are ensured. Finally patient support facilities, recreation facilities, and patient wards should be accessible to patients, but not necessarily all patients at all times, because of risk of cross-infection.</div>
 
 
 
<div style="color:#00000a;">The following situations and design features have been identified as presenting the potential for increased risk of TB transmission in healthcare settings, so that when allocations of spaces are made in existing infrastructure systems the following should be borne in mind: </div>* Congregate settings - any setting (usually waiting areas) where large groups of patients are kept in close proximity to each other are potentially high risk areas. The highest risks are usually in admission, main outpatient, emergency or pharmacy waiting areas where undiagnosed or untreated patients congregate. Smaller waiting areas or other functional areas, such as in x-ray departments or even multi-bed patient rooms can equally pose a risk.
 
* Restricted / inadequate ventilation - appropriate ventilation is important, especially in congregate settings or other direct contact areas, such as dining facilities, occupational therapy areas etc. Waiting areas need to be adequately ventilated at all times in order to dilute concentrations of infectious airborne bacteria. Areas such as consulting, examination, counselling or treatment areas where staff spend long times in relatively small areas in close proximity to patients should be considered high risk areas. Minimum opening window areas are prescribed but often not complied with. The WHO guidelines (WHO, 2009a) indicate a target of 20% open window area to space floor area. The design of the window is also important to promote natural ventilation. However improved ventilation alone is usually not enough to reduce risk in that the directional flow of air to and from adjacent areas needs to be addressed.
 
* Shape and volume - the shape and volume of a space can also be a risk indicator. Occupied spaces with minimal floor to ceiling height (often found in multi-storey buildings) are generally higher risk areas than those with a shaped ceiling to high level clear storey windows. Shape and volume usually is linked to ventilation flow patterns and rates. The position and ease of opening of both high and low level windows is important. Staff awareness of the need to keep windows open to allow unobstructed ventilation is needed. “Open window” stickers are frequently used to provide visible reminders of open window policy.
 
* Adjacency - the distance between carriers and staff or other patients is a risk factor. Congregate areas where patients are sitting close together is an obvious situation and settings where close contact occurs such as during consultation, examination and treatment are risk situations. Narrow bed spacing (less than 1.2 m) presents risk for both fine droplet and droplet nuclei contamination. Multi-bed wards configurations are risk situations.
 
* Places where aerosol-generating procedures are undertaken- These are defined as high-risk procedures that may increase the potential of generating droplet nuclei because of the mechanical force of the procedure (e.g. intubation, cardiopulmonary resuscitation, bronchoscopy, autopsy, and surgery where high-speed devices are used) (WHO, 2007)
 
 
 
 
 
 
 
<div style="color:#00000a;">Total respiratory isolation for TB treatment would be ideal from an infection prevention and control point of view. Several factors make this both impractical and undesirable. First there are negative social and psychological impacts to strict separation including isolation and stigmatisation of patients. Second, nursing requirements, acuity and management dictate that patients must be visible to healthcare workers and accessible to them. </div>
 
 
 
<div style="color:#00000a;">Whilst provision of single bed wards is advisable as far as possible, shared spaces for joint activities are required. Estate legacy constraints (the size and shape of existing rooms), affordability (single-bed wards require a higher capital investment, higher operational and maintenance costs) and nursing acuity constraints (compact configurations allow for improved nursing efficiency) mean that single-bed configurations are not always possible, and it therefore is common practice at facilities in South Africa to provide rooms with two, four, six or more patients. </div>
 
 
 
<div style="color:#00000a;">TB facilities generally experience highly fluctuating patient demographics and needs. Given resource constraints and high demand, it is frequently useful to provide configurations which allow for flexible arrangements which can be administered according to prevailing needs.</div>
 
 
 
Management of patients may require spatial and/ or physical separation in accordance with facility policy:* according to gender
 
* ostensibly drug susceptible TB – retreatment (treatment failure)
 
* Mono-resistant TB (suspected-MDR)
 
* Poly-resistant TB (suspected-MDR)
 
* MDR TB
 
* MDR treatment failure
 
* Pre XDR TB
 
* XDR TB
 
* XDR treatment failure
 
* First sputum culture negative result, pending second result (suspected cured)
 
* children (with or without boarding parents)
 
* patients requiring isolation ( for additional infectious diseases, psychological disturbance, prisoners)
 
 
 
 
 
 
 
<div style="color:#00000a;">Occasionally facility policy may allow for or require additional accommodation for outpatients, visitors or patients awaiting transfer. This may be applicable to specialised facilities (Centres of Excellence), where family and patients are likely to travel great distances but will not be applicable to Satellite Facilities on the decentralised scheme.</div>
 
 
 
<div style="color:#00000a;">Separation of each of the cohorts described above, especially at long-term care facilities is highly desirable. Generally, at a minimum, separation of gender, paediatrics and XDR patients is required. It is highly preferable to have some accommodation for patients requiring isolation and patients with first culture negative result (suspected cured). Further refinement will be dependent on individual facility policy, size of facility (larger facilities being more complex in nature) and whether it is primarily aimed at acute or sub-acute care. </div>
 
 
 
<div style="color:#00000a;">Administrative control measures must also ensure optimal operation of environmental control measures (see below). This may include assignment of a person to oversee environmental controls, to open and close windows as appropriate, change filters, test environmental control measures periodically, clean UVGI lamps if installed, perform preventative maintenance measures, etc. Whatever environmental control measures are in place, their adequate operation and maintenance should be included in the administrative control measures through the TB Infection Control Plan and their operational parameters and proper function should be evaluated regularly. </div>=== {{anchor|Toc339898709}} {{anchor|Toc428538827}} Environmental IPC measures ===
 
 
 
<div style="color:#00000a;">Environmental IPC protection methods should be the second- most prioritised approach, after administrative IPC measures and before personal protection measures (which should be used as measure of last resort). Two broad environmental strategies can be identified: dilution, which results in the reduction in concentration of contaminated particles in a volume of air and disinfection, which is the partial or complete destruction (sterilisation) of micro-organisms in air. Disinfection substances/ processes may be harmful to humans.</div>
 
 
 
<div style="color:#00000a;">Dilution is most easily achieved through maximising air volume through design of large spaces and addressing ventilation, in particular the introduction of “fresh” air from a “safe” source (preferably outdoor air) to continually replenish indoor air as it is exposed to infected persons. </div>
 
 
 
<div style="color:#00000a;">The removal of contaminated air by dilution alone requires extremely large per-occupant ventilation rates to minimise risk. Acceptable levels of room airborne contaminant removal in most South African healthcare facilities cannot be sustainably accomplished by artificial ventilation alone. Its application is limited by engineering constraints and by cost. The professional consultant team is to consider the strategy to ventilation in the following prioritised sequence and only proceed to the next option if the previous is not achievable or not feasible: natural ventilation, mixed mode ventilation and finally mechanical ventilation.</div>
 
 
 
<div style="color:#00000a;">The disadvantages of reliance on natural ventilation for infection control include climate dependence and impact on patient comfort. Yet, the low cost of installation, operation and maintenance should be considered as benefits. The continuous escalation in the cost of electricity and ever-present risk of power outages further support the need to design, wherever possible, for natural rather than artificial ventilation.</div>
 
 
 
<div style="color:#00000a;">The ventilation capacity of any naturally ventilated building is dependent on:</div>* Wind direction and profile;
 
* Building geometry;
 
* Interior obstructions and flow paths;
 
* Inner and outer temperature (buoyancy);
 
* Type and degree of envelope and building permeability;
 
* Adjacent structures and building location;
 
* Terrain; and
 
* Complimentary ventilation systems.
 
 
 
 
 
 
 
<div style="color:#00000a;">The successful commissioning of the installed ventilation system depends on the successful completion of the following steps:</div>* Definition of performance and functional requirements as identified during the project definition stage
 
* Ensuring that the performance and functional requirements are met by the design and specification
 
* Validating that the ventilation system performs and functions as intended. An independent authority shall validate the performance and functioning of the ventilation system.
 
 
 
 
 
 
 
<div style="color:#00000a;">Whereas the requirements of SANS 10400 XA contemplate the limitation of infiltration and exfiltration of air from the building (sealing for energy conservation) a rational design approach must be adopted for natural and mixed mode systems.</div>=== {{anchor|Toc273449461}} {{anchor|Toc428538828}} {{anchor|Toc339898710}} Dilution systems ===
 
 
 
<div style="color:#00000a;">Dilution ventilation refers to any method of ventilation (natural, mechanical or mixed-mode) in which air is encouraged to flow into and out of a space with the aim of reducing the background concentration of airborne contaminants within that space. The complete removal of all ''M. tuberculosis'' particles cannot be accomplished by dilution ventilation alone. Its efficacy is limited by engineering constraints as well as by cost and comfort conditions. Unlike odour and temperature control functions for which ventilation and other forced-air systems are designed, the removal of diluted air (still contaminated with infectious particles air) requires extremely large ventilation rates for adequate protection.</div>
 
 
 
<div style="color:#00000a;">According to the WHO Guideline ''Natural Ventilation for Infection Control in Health-Care Settings ''(WHO, 2009a), if natural ventilation alone is not able to reliably meet both the recommended ventilation and indoor comfort requirements then alternate ventilation systems, such as mixed-mode ventilation, should be sought. If that too does not meet the ventilation requirements, only then should mechanical ventilation systems be considered. </div>
 
 
 
<div style="color:#00000a;">A summary of the advantages and disadvantages of natural, mechanical and mixed-mode ventilation is provided in Table 3</div>
 
 
 
 
 
{| style="border-spacing:0;width:16.302cm;"
 
|- style="border-top:0.5pt solid #00000a;border-bottom:0.5pt solid #00000a;border-left:none;border-right:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;"
 
| style="color:#00000a;" |  
 
| style="color:#00000a;" | '''Mechanical ventilation'''
 
| style="color:#00000a;" | '''Natural ventilation '''
 
| style="color:#00000a;" | '''Hybrid (mixed-mode) ventilation'''
 
|- style="border-top:0.5pt solid #00000a;border-bottom:none;border-left:none;border-right:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;"
 
| style="color:#00000a;" | Advantages
 
| style="color:#00000a;" | Suitable for all climates and weather with air-conditioning as climate dictates
 
| style="color:#00000a;" | Suitable for warm and temperate climates – moderately useful with natural ventilation possible 50% of the time
 
| style="color:#00000a;" | Suitable for most climates and weather
 
|- style="border:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;"
 
| style="color:#00000a;" |
 
| style="color:#00000a;" | More controlled and comfortable environment
 
| style="color:#00000a;" | Lower capital, operational and maintenance costs for simple natural ventilation
 
| style="color:#00000a;" | Energy saving
 
|- style="border:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;"
 
| style="color:#00000a;" |
 
| style="color:#00000a;" |
 
| style="color:#00000a;" | Capable of achieving high ventilation rate
 
| style="color:#00000a;" |
 
|- style="border:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;"
 
| style="color:#00000a;" |
 
| style="color:#00000a;" | Smaller range of control of environment by occupants
 
| style="color:#00000a;" | Large range of control of environment by occupants
 
| style="color:#00000a;" | More flexible
 
|- style="border:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;"
 
| style="color:#00000a;" | Disadvantages
 
| style="color:#00000a;" | Expensive to install and maintain.
 
| style="color:#00000a;" | Easily affected by outdoor climate and/or occupants’ behaviour
 
| style="color:#00000a;" | May be expensive
 
|- style="border:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;"
 
| style="color:#00000a;" |
 
| style="color:#00000a;" | Reported failure rate in delivering the required outdoor ventilation rate
 
| style="color:#00000a;" | Reduces occupants comfort level when hot, cold or humid
 
| style="color:#00000a;" | May be more difficult to design
 
|- style="border:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;"
 
| style="color:#00000a;" |
 
| style="color:#00000a;" | Potential for noised from the equipment
 
| style="color:#00000a;" | Inability to establish negative pressure in isolation areas, but may be provided by proper design; depends on situation
 
| style="color:#00000a;" |
 
|- style="border:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;"
 
| style="color:#00000a;" |
 
| style="color:#00000a;" |
 
| style="color:#00000a;" | Potential for noise intrusion
 
| style="color:#00000a;" |  
 
|- style="border-top:none;border-bottom:0.5pt solid #00000a;border-left:none;border-right:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;"
 
| style="color:#00000a;" |
 
| style="color:#00000a;" |
 
| style="color:#00000a;" | High tech natural ventilation shares some of the disadvantages and limitations of mechanical ventilation
 
| style="color:#00000a;" |  
 
 
|-
 
|-
 +
|Psychiatric  TB patients/ (unisex isolation)
 +
|
 +
|
 +
|
 
|}
 
|}
{{anchor|Ref350177615}} {{anchor|Toc428539020}} Table 3: Summary of the advantages and disadvantages of mechanical, natural and mixed-mode ventilation systems (WHO, 2009a).=== {{anchor|Toc273449462}} {{anchor|Toc428538829}} {{anchor|Toc339898711}} Natural ventilation systems ===
 
  
<div style="color:#00000a;">Natural ventilation is the flow of air through buildings driven by wind pressure and buoyancy forces. Natural ventilation is dependent on climate, building design, occupancy and activity in the building. Controlled natural ventilation is not limited to the strategic positioning, opening and closing of windows and doors to channel air flow in a certain direction. For natural ventilation to be effective as a ventilation solution, it must be considered from the earliest stages of the facilities design development. When developing the design concept for a naturally ventilated building, three basic steps need to be taken:</div># <div style="margin-left:0.63cm;margin-right:0cm;">The desired airflow patterns from inlets to outlets (windows) through the occupied spaces need to be defined. This is closely related to the form, arrangement and management of the building, which in turn depends on the use patterns and even configuration of the site.</div>
+
===Clinical support services for inpatient care===
# <div style="margin-left:0.63cm;margin-right:0cm;">The principal driving forces, which enable the desired airflow patterns and ventilation rates (air changes) to be achieved, must be defined and quantified. Certain strategies tend to be wind-driven; others stack-driven. In successful designs, the principal airflow drivers are complementary to the intended flow rate and distribution.</div>
+
Nursing support is to be located centrally to serve several bed functional units (for sub-acute services) or dedicated per unit for acute services to ensure supervision and control of the department. Alternatively if functional units are physically separate, these nursing support facilities are to be duplicated. In addition to the inpatient facilities described here, TB patients will need access to facilities described in 2.1 above either as a dedicated facility or where appropriate, shared with outpatients.
# <div style="margin-left:0.63cm;margin-right:0cm;">Size and locate the openings (windows) so that the minimum and average required flow rates can be delivered under all operating regimes. </div>
 
  
 +
====Duty station/ nurse’s station====
 +
The duty station should be provided with a built-in worktop (desk height), a telephone, computer and network points, cupboards and a clinical hand-wash basin.
  
 +
====Clean linen area====
 +
A locked linen store with slatted racks to support the airing and safe storage of clean linen should be provided.
  
<div style="color:#00000a;">The incorporation of additional openings and devices such as solar chimneys, wind towers, turbine ventilators and wind scoops and cowls may assist the natural ventilation design by encouraging air to flow in a specified direction. These devices could also increase the ventilation rate.</div>
+
====Dirty utility room====
 +
The dirty linen store near the sluice and a dirty utility service door with direct access to waste collection points for easy removal and disposal. Space for separate refuse bins for paper, medical waste and general waste.
  
<div style="color:#00000a;">Naturally ventilated healthcare facilities should be designed such that the overall airflow pattern carries air from the infectious patients, to areas where there is adequate dilution, and be exhausted to the outside (WHO 2009a). </div>
+
====Sluice room====
 +
A standard sluice room with bedpan, urinal racks, storage cupboards and a worktop should be provided.  
  
<div style="color:#00000a;">For natural ventilation, the WHO recommends the following minimum hourly ventilation rates (WHO, 2009a):</div># In new healthcare facilities or renovated spaces, an hourly average of 160 l/s/patient in airborne precaution rooms, with a minimum of 80/l/s per patient.
+
====Surgery services (operating theatre)====
# In general wards and outpatient departments (OPD), 60 l/s/patient. The occupancy of general wards and OPDs vary, and this should be considered in the design phase.
+
Surgical services are commonly required by TB patients so should be readily available in nearby referral facilities or for stand-alone TB-services minor procedures room may be provided on site. Support infrastructure such as CSSD is required in accordance with.
# In corridors and other transient spaces, a minimum of 2.5 l/s/m<sup>3</sup> is required. When emergency medical procedure are performed in these areas , an hourly average of 160 l/s/patient is required for high risk procedures, and 60 l/s/patient for all other procedures.
 
  
 +
====Staff facilities====
 +
A cluster of staff facilities should be provided for exclusive use by staff. These include a lounge/tea area/room; a kitchen area/room; staff locker area/room and staff ablutions. Staff facilities should be located remotely from patient areas to allow for:
  
 +
*airborne infection control
 +
*a “break-away” venue to rest following patient contact periods away from the demands of the work environment
  
<div style="color:#00000a;">In these areas the airflow should be from the infectious patients, to areas where there is adequate dilution, and exhausted directly to the outside. If this is not achievable, consideration should be given to mechanical ventilation. '''Sputum booths should be provided externally if at all possible. <span style="color:#000000;">Only where this is not possible should mechanically ventilated sputum booth options be considered.'''</span></div>
+
Staff facilities should be readily accessible to the duty areas. The purpose of this kitchen is to prepare beverages for members of the staff at tea breaks and lunch breaks, and to provide a place for washing and storing crockery and stocks of tea, coffee, sugar, milk and cleaning materials under lock and key. The kitchen area/room should be equipped with a sink, lock-up cupboards, bar fridge, and an instant boiling water dispenser (“Hydroboil” or similar approved).  
  
<div style="color:#00000a;"><span style="color:#000000;">See below for requirments of mechanical ventilation and Annex 1 for mechanically ventilated sputum booths.</span></div>
+
Staff lockers should be provided for each non-central service member of staff for storing personal belongings.
  
<div style="color:#00000a;">It is important in natural ventilation design to consider:</div># the fluctuation rates due to changes in weather in the design of natural ventilation systems (including extremes of wind speed);
+
====Procedure room====
# building performance in inclement weather;
+
The procedure room can be provided for the taking of blood and other specimens (except sputum). Clinical hand-wash basin with elbow taps to be provided. Work tops at standing height. Lock-up cupboards and a patient couch with good lighting. The electrocardiogram and the emergency trolley can be stored in this room.
# patient comfort; and  
 
# control of drafts in the occupied zone- Air currents in excess of 0.8 m/s in the occupied zone can cause disturbance and discomfort.
 
  
 +
====Store rooms====
 +
Store rooms for provisions and consumables, surgical stores, equipment (such as wheelchairs, crutches and health technology) should be provided. These stores must be ventilated and fitted with shelves selected for appropriate storage of goods. Where electrical equipment is stored, electrical socket points may be required to ensure battery charging.
  
 +
====Medical store====
 +
A lockable room for store for the safekeeping of ward stock and scheduled drugs, infusions etc. is required.  This must room must be cool (as close to 18 °C with passive means as possible), dry and dark (that is its electrical lighting should be independently controlled). It should be provided with a cabinet, worktop and adjustable shelving.
  
==== {{anchor|Toc273449464}} {{anchor|Toc339898713}} Mixed-mode systems ====
+
====Matron’s office====
 +
The office should be a standard office with the normal requirements (desk, telephone, computer and network points, cupboards and a clinical hand-wash basin).
  
<div style="color:#00000a;">The terms “mixed-mode” and “hybrid” ventilation are used synonymously. They refer to mechanically assisted natural ventilation strategies. Mixed-mode systems essentially extend the capacity of naturally ventilated systems. The two major types of mixed-mode ventilation are:</div># Complementary mixed-mode ventilation
+
====Mortuary====
# Zoned mixed-mode ventilation
+
If a nearby referral healthcare establishment is available, a bier room may suffice. Alternatively a small mortuary may be provided. Refer to <u> [https://www.iussonline.co.za/norms-standards/support-services IUSS:GNS Mortuary Services]''.''</u>
  
 +
===Patient Support===
 +
Care should be taken to avoid enclosed congregate settings (such as waiting areas) where possible. Where these are required, they should be regarded as high risk for airborne contamination.
  
 +
====Visitor’s area====
 +
This area must be separate from the ward, should have a meeting room for several families, veranda and garden. Seating and tables must be built in.  The visitor facility can be shared between male and female patients. Access control must be provided for visitors.
  
<div style="color:#00000a;">Complementary mixed-mode ventilation uses natural ventilation and mechanical ventilation strategies at different times of the day, or different seasons of the year, i.e. natural ventilation is used when wind conditions are favourable, and mechanical ventilation is extreme conditions. Complementary mixed-mode ventilation can further be classified as concurrent or changeover. In concurrent operation, the mechanical ventilation system works in the background to the natural ventilation system, assisting where temperature, airflow, or indoor air quality parameters are not met. In changeover strategies, the natural and mechanical ventilation systems work alternately. Seasonal and night-day changeovers are the most common.</div>
+
====Visitor’s ablution====
 +
To be attached to visitor’s area.  At least one unisex accessible toilet is to be provided.
  
<div style="color:#00000a;">Zoned mixed-mode ventilation implies that certain parts of the building use natural ventilation, and other parts, usually specialised areas within the building, use mechanical ventilation. Brown and Huang (2006, p.47) recommends that energy zoning be employed for naturally ventilated buildings. Activities or spaces having similar cooling and occupancy schedules should be located close to each other, so that the same energy strategies can be used in those areas. In this way it is also possible to cluster the areas which will be naturally ventilated and the areas which will be mechanically ventilated. By clustering all the mechanically ventilated areas, air-conditioned air can be distributed more efficiently.</div>
+
====Dining facilities====
 +
In acute settings, patients may be served meals in bed. A hall to accommodate patients is recommended in long-term care facilities.  This room should provide tables and chairs for all patients, a small kitchenette, fridge, microwave, stove and an instant boiling water dispenser (“Hydroboil” or similar approved).  These areas should have ample access to the outside. This room can be interlinked with games and TV rooms (if provided).
  
<div style="color:#00000a;">Mixed-mode ventilation systems may benefit from control strategies. These control strategies may be manual or automatic. Automatic controls usually include sensors, actuators and controllers. The control strategy should be triggered if the required ventilation rates are not met. When this happens, the system switches from natural to mechanical. Once climatic conditions are able to deliver the required ventilation rate, the system should be set back to natural ventilation. Control strategies may also be temperature-based, or rain-based, but the required ventilation rates should be met if these controls are employed. </div>
+
====Business centre====
 +
This room should provide access to computers with Internet connectivity, space and chairs.
  
==== {{anchor|Toc273449463}} {{anchor|Toc339898712}} Mechanical ventilation systems ====
+
====Resource centre/ media room/ library====
 +
This room should be like a small lounge providing space for books easy chairs and big table and chairs for occupational therapy activities.
  
<div style="color:#00000a;">There are certain instances where the use of mechanical ventilation is the only feasible option, an example of which is deep-planned buildings. </div>
+
====Games room====
 +
This room should provide space for e.g. snooker, table tennis, and board games. This can be interlinked with other patient support areas (e.g. dining and TV room).
  
<div style="color:#00000a;">In high risk areas, the mechanical ventilation system should, at least, meet the following minimum ventilation requirements:</div># A ventilation rate of 12 ACH, or
+
====TV room====
# A ventilation rate of 80 l/s/patient of outside or sterilised air.
+
Separate from dining and games room, this room should have a TV, DVD and lounge suites. To be interlinked with Games and Dining Rooms.
  
 +
====Kitchenette====
 +
In addition to central kitchen services, an area may be provided in which patients can prepare their own meals and wash dishes. This area should be provided with a stove/oven, microwave, fridge, an instant boiling water dispenser (“Hydroboil” or similar approved), double sink, dishwasher.  Lock-up cupboards and counter top working areas.  Lock-up cupboards will provide store space for crockery and consumables.
  
 +
====Patient laundry====
 +
In addition to the central laundry services, provision may be made for a laundry for patient use only. This room should provide a washing machine and washing trough, and have direct access to a drying yard.
  
<div style="color:#00000a;">Criteria 2 is required when considering congregate settings, such as waiting areas and dining halls. Criteria 1 is not relevant where option 2 is achieved. Criteria 1 is not relevant in high volume spaces (>3.5m AFFL).</div>
+
====Other recreation====
 +
Patients are encouraged to spend much time outdoors during convalescence. Consideration should be made to providing pleasant garden and planting areas, possible vegetable gardens, and permanent weather-proof seats. An outdoor covered patio with braai facilities connected to dining area should be provided. An outdoor uncovered patio connected to the games/ TV room area may be provided. Storm-water management around the proposed building and affected grounds should be considered. 
  
<div style="color:#00000a;">The system should preferably be a full fresh air system. All air should be exhausted directly to the outside. In the event of a partially recirculating system, HEPA filtration or in-duct UVGI should be considered should there be risk of airborne transmission (patient areas). </div>
+
===Allied healthcare services===
 +
National policy recognises the importance of have a holistic psycho-social approach to patient care. Therefor provision should be made for allied health services preferably by practitioners on site, visiting practitioners or, alternatively at a nearby referral facility. Refer to [https://www.iussonline.co.za/norms-standards/clinical-services IUSS:GNS Adult rehabilitation services for further guidance].
  
<div style="color:#00000a;">Where neither of the points above can be sustainably achieved, the occupancy levels in high risk indoor spaces should be managed to remain below a level that which can be effectively served by the considered ventilation system.</div>
+
====Occupational therapy====
 +
Occupational therapists (OTs) and assistant OTs deliver a service to TB patients.  It may be challenging to motivate patients especially when they are sick and are treated with many drugs, which have severe side effects.  OT aims to increase skills by training in several crafts, cooking classes etc.  
  
<div style="color:#00000a;">The use of exhaust air filtration in single pass ventilation systems as a means of removing hazardous infectious particles from the room should be restricted to “in-room” filtration. “In-duct” filtration, will not lower the concentration of infectious airborne particles in the occupied zone in which they are being expelled by infectious persons. “In-duct” filtration can only remove the infectious particles present in the incoming air or in air being redistributed to other areas served by the recirculating system. “In-room” filtration can be achieved using portable air cleaners (PAC). PACs may therefore serve as an effective extension to the dilution process provided by controlled ventilation, where the ventilation rates required for IPC cannot be achieved. PACs can be used as a means to increase the contaminant removal effectiveness of the ventilation system (at the cost of increased energy consumption). The law of diminishing returns is applicable to any common intervention applied to reduce the probability of airborne cross-infection. For this reason it is important to quantify the expected gains before renovating, adjusting or augmenting systems. </div>
+
====Audiology====
 +
Audiology services are required as a common side-effect of TB treatment is hearing loss. A baseline hearing test ought to be performed upon patient admission and followed up with regular tests to determine the effects of the drugs on hearing.  If hearing is affected, drugs regimens can be adapted. Sharing of audiology equipment with referral facilities may be problematic as conventionally audio booths are enclosed to control noise and may be inadequately adapted for airborne infection risk. It is highly recommended that dedicated mobile audiometers which do not require booths (see KUDUwave, or equivalent) are secured for TB facilities. These can be supported by telemedicine so that reduced on-site involvement of audiologist is possible. Where the use of  mobile audiometers is not possible or appropriate, it is recommended that the audiology test booth used be ventilated and flushed with fresh air for 20 minutes between uses.  
  
<div style="color:#00000a;">Given the maintenance requirements for HEPA filtration and in-duct UVGI systems and the inherent occupational health risks associated with their maintenance, these systems should only be used as a measure of last resort in airborne precaution areas.</div>
+
====Physiotherapy====
 +
Physiotherapists and assistant physiotherapists deliver services to patients as required. This typically includes lung function tests, mobility exercises and assistance in sputum production where patients have difficulty.  
  
<div style="color:#00000a;">Where mechanical ventilation systems are used, consider the failure-mode fall-back option of reverting to natural ventilation.</div>
+
====Clinical psychology====
 +
Clinical psychologist sees patients on an individual basis, have climate groups and supervise the six lay counsellors in their work.  
  
<div style="color:#00000a;">For more detail on airborne contamination control concepts refer to the <span style="color:#00000a;"><u>''GNS:IUSS Building Engineering Services''</u></span>. </div>=== {{anchor|Toc339898714}} {{anchor|Toc428538830}} Disinfection systems  ===
+
====Social services====
 +
Social workers assist patients with social and economic issues which include the obtaining of grants, identity documents and family counselling.
  
==== {{anchor|Toc339898715}} Upper-room air UVGI ====
+
===Support services===
  
<div style="color:#00000a;">According to the CSIR Guidance document: ''UVGI Disinfection of Room Air: an Evidence Based Guideline for Design, Implementation and Maintenance, 2015'' ([http://www.tb-ipcp.co.za/index.php/tools-resources/documents-paper-and-articles http://www.tb-ipcp.co.za/index.php/tools-resources/documents-paper-and-articles]) , the following irradiance and dose factors must be considered when evaluating the ability of an upper-room UVGI system to kill or inactivate airborne microorganisms:</div>* include the sensitivity of the microorganisms to UVGI
+
====School====
* and the dose of UVGI received by a microorganism
+
Provision of school services may be negotiated with the relevant Provincial Department of Basic Education. Separate teaching and learning facilities may be provided.
* the room occupancy levels
 
* or population of microorganisms.  
 
  
 +
====Kitchen====
 +
Kitchen services may be outsourced or prepared on site. Refer to ''IUSS: GNS Catering Services''
  
 +
====Laundry====
 +
General laundry services can be provided on site, off site or can be shared (where co-located). Refer to [https://www.iussonline.co.za/norms-standards/support-services IUSS:GNS Laundry and linen]. In addition to general laundry services some TB institutions encourage patients to wash their own clothing. Where this is the case, hand washing, washing machine, drying machines and/or drying yards should be provided.
  
<div style="color:#00000a;">'''UVGI dose''' is the ultraviolet (UV) irradiance multiplied by the time of exposure and is usually expressed as μW·s/cm2. A appropriatly-designed upper-room UVGI system may be effective in killing or inactivating most airborne droplet nuclei containing mycobacteria if designed to provide an average '''UV fluence rate''' in the room in the range of 15 mW/m³ to-20 mW/m³ and provided the other elements stipulated in these guidelines are met. In addition, the fixtures should be installed to provide as uniform a UVGI distribution in the upper room as possible without losing too much fluence to the walls. There is likely an upper threshold where adding more UVGI will not achieve significant increases in inactivation (Xu, et al., 2003).</div>
+
===Facilities management===
  
<div style="color:#00000a;">As the mechanical ventilation rate in a room is increased, the total number of microorganisms removed from the room via this system is increased. However, when mechanical ventilation is increased in a room where an upper-room UVGI system has been deployed, the effectiveness of the UVGI system may be reduced because the residence time of the bacteria in the irradiated zone decreases. Under experimental laboratory conditions with mechanical ventilation rates up to six air changes per hour (ACH), the rate that microorganisms are killed or inactivated by UVGI systems appears to be additive with mechanical ventilation systems in well-mixed rooms. Similarly laboratory studies that UVGI effectiveness changes with modifications to mechanical ventilation rates. Exceeding 6 ACH may reduce UVGI effectiveness although the overall contaminant removal rate may still increase (Xu, et al., 2003).</div>
+
====Waste management====
 +
On-site disposal, storage and collection of waste need consideration. Refer to [https://www.iussonline.co.za/norms-standards/support-services IUSS:GNS Waste disposal].
  
<div style="color:#00000a;">Upper-room UVGI systems rely on air movement between the lower portion of the room where droplet nuclei are generated and the upper irradiated portion of the room. Once in the upper portion, droplet nuclei containing ''M. tuberculosis'' may be exposed to a sufficient dose of UVGI to kill or inactivate them.</div>
+
====Maintenance services - building====
 +
Building maintenance services for both planned and unplanned maintenance (for example works foreman, electrician, painter, plumber, and carpenter) will be needed to provide service on site either on a full-time, part time or visiting basis depending on the size of the facility and institutional arrangement. Maintenance workshops and storage space may be required for this.
  
<div style="color:#00000a;">When upper-room UVGI systems are installed, general ventilation systems should be designed to provide optimal airflow patterns within rooms and prevent air stagnation or short circuiting of air from the supply diffusers to the exhaust grilles. Also, heating and cooling seasons should be considered and the system designed to provide for optimal convective air movement. Consideration of the drop and throw parameters of selected ventilation air terminals is critical to ensure good mixing under all seasonal conditions.</div>
+
====Clinical engineering====
  
<div style="color:#00000a;">Most rooms or areas with properly installed supply diffusers and exhaust grilles should have adequate mixing. If f air stagnation is possible, air mixing should be improved by the considered addition of vertical air mixing fans or repositioning the supply diffusers and/or exhaust grills. If there is any question about vertical air mixing between the lower and upper portions of the room due to environmental or other factors, a fan(s) should be used to continually mix the air. In a room without adequate air mixing under experimental laboratory conditions, UVGI system effectiveness increased by up to 72% when a mixing fan was used.</div>
+
====Gardening services====
 +
Gardening and grounds maintenance services may be provided on-site or outsourced. It is recommended that planting and landscaping is arranged near to building openings to discourage loitering nearby for infection prevention and control.
  
<div style="color:#00000a;">A number of studies have indicated that the effectiveness of upper-room UVGI systems decreases as humidity increases. The reason for the decrease in UVGI effectiveness is not clearly understood. However, the effect needs to be considered in the general context of upper-room UVGI systems.</div>
+
====Cleaning services====
 +
Cleaning services may be outsourced. However storage of cleaning equipment, materials and staff facilities for cleaners is required to be provided on site.
  
<div style="color:#00000a;">For optimal efficiency, relative humidity (RH) should be controlled to between 25% and 60% where upper room UVGI systems are installed. This is consistent with American Institute of Architects (AIA) and the American Society of Heating, Refrigerating, and Air-Conditioning Engineers (ASHRAE) recommendations that the RH affecting patient care areas in hospitals and outpatient facilities range from 30% RH to 60% RH. If high humidity conditions are normal, it may be necessary to install a system with greater than normal upper-room irradiance levels.</div>
+
===Administration===
 +
Office accommodation is to be provided in accordance with the following reference: Department of Public Works, 2005. Space planning norms and standards for office accommodation used by organs of state. (Government notice 1665). Cape Town South Africa: Government Gazette.
  
<div style="color:#00000a;">Recommendations developed by ASHRAE and AIA stipulate that the design temperature for most areas affecting patient care in hospitals and outpatient facilities range from 20 °C to 24 °C. This temperature range is consistent with the optimal use of low pressure mercury lamps that are used in upper-room UVGI systems.</div>
+
===Other===
  
<div style="color:#00000a;">The most common way to generate germicidal UV radiation in lamps used in well-designed upper-room UVGI systems is to pass an electrical charge through low-pressure mercury vapour that has been enclosed in selected glass tubes that transmit only certain UV wavelengths. Care must be used in selecting the correct UVGI lamp for use in upper room UVGI systems. Typically, the optimal wavelength for UV germicidal radiation is 254 nanometres (nm) in the UVC range. UV lamps are made for a variety of purposes that may have a negligible consequence in killing airborne microorganisms. Some UV lamps (such as those used for tanning) radiate energy in the UVA and/or UVB range and over extended periods may have adverse health consequences for exposed persons. Other UV lamps are designed to emit radiation at 184.9nm and produce ozone, which is hazardous to humans even at low concentrations. Low-pressure mercury lamps should be rated for low or no ozone generation. Since all lamps must eventually be discarded, each lamp should contain only a relatively small quantity of mercury (i.e., 5mg or less).</div>
+
====Co-located institutions/ activities====
 +
Medical researchers, NGOs and other organisations may provide services to and be co-located with the facility.
  
<div style="color:#00000a;">In upper-room UV irradiation, fixtures containing UVGI lamps are suspended from the ceiling or installed on walls. The base of the lamp is shielded to direct the radiation upward and outward to create an intense zone of UVGI in the upper air while minimizing the level of UVGI in the lower (occupied) portion of the room or area. The height of the room must be considered in the design of an effective system.</div>
+
====Overnight stay====
 +
Family member overnight accommodation is not routinely provided but may be desirable, particularly in rural settings. 
  
<div style="color:#00000a;">A professional who is knowledgeable in upper-room UVGI systems design and installation should be consulted before procurement and installation of the system. The number of persons competent in the design of upper-room UVGI systems is normally limited.</div>
+
====Commercial support (tuck shop, ATM)====
 +
Tuck shop facilities and banking services may be provided - if viable - on site for staff and patients. This is highly recommended as otherwise infectious patients leave the site in order to attend to these requirements.  
  
<div style="color:#00000a;">Persons who may be consulted include engineers, industrial hygienists, and radiation/ health physicists. A mechanism to provide training certification for system designers should be developed and based on the guidance document ''UVGI Disinfection of Room Air: an Evidence Based Guideline for Design, Implementation and Maintenance.''</div>
+
====Staff accommodation====
 +
Staff accommodation for nursing and or/clinical staff may be required by provincial policy, and may be recommended in most cases, especially in rural settings. Separation on site of staff quarters and patient facilities on site should allow for staff safety and privacy, whilst remaining within comfortable walking distance of the patient facilities. Refer to [https://www.iussonline.co.za/norms-standards/support-services IUSS:GNS Health facility residential]
  
<div style="color:#00000a;">Once the number and types of UVGI fixtures appropriate for the room or area have been determined, the fixtures need to be appropriately installed. Installation guidelines are provided in the ''Environmental Control for Tuberculosis: Basic Upper-Room Ultraviolet Germicidal Irradiation - Guidelines for Healthcare Settings'' document and the guidance document ''UVGI Disinfection of Room Air: an Evidence Based Guideline for Design, Implementation and Maintenance''. Only qualified service technicians who have received training on the installation and placement of UVGI lamp fixtures should install the systems. Following installation UV lamps require on-going maintenance and frequent replacement, by suitably skilled technicians. This consideration may be a limiting factor in the use of the solution. </div>
+
='''Case studies'''=
  
==== {{anchor|Ref272242697}} {{anchor|Toc339898716}} Personal protection measures ====
+
==List of case studies==
  
<div style="color:#00000a;">In addition to administrative and environmental control measures, the recommended personal control measure for protection of the healthcare worker, from inhaling infectious droplets in high-risk DR TB settings, is the use of respiratory protective devices. These are designed to fit over the mouth and nose and filter out infectious TB particles. </div>
+
* Areas comparison of long-term XDR TB care facilities at:
 +
**Bongani Hospital, Mpumalanga
 +
**Tshepong Hospital, North West
 +
**Modimolle Hospital, Limpopo
 +
*Modimolle TB Hospital
 +
**site layout
 +
**patient rooms
 +
**natural ventilation design
 +
*Catherine Booth TB Hospital, KwaZulu-Natal
 +
**Roof ventilation and windows concept drawings
 +
**Two-bed patient rooms plan
  
<div style="color:#00000a;">Respiratory protective devices for healthcare workers that are capable of adequately filtering out infectious particles are more expensive than surgical or procedure masks. Nevertheless, their use in high-risk DR TB settings is strongly recommended, particularly in high burden HIV settings where many healthcare workers may be HIV infected. Respiratory protection should be used only when all other administrative and/or environmental control measures are fully implemented. Acceptable respirator types meet the performance requirements outlined in table 7, and include:</div>* SANS 50149 FFP2/3 respirators
+
[[File:Case study A and B.jpg|none|thumb|535x535px|Case study A - Bongani Hospital, Case study B - Tshepong Hospital]]
* CDC - NIOSH N95 respirators
+
[[File:Case study C and BCH proposal.jpg|none|thumb|536x536px|Case study C - MDR TB Unit, Modimolle and BCH proposal - Brooklyn chest Hospital]]
 +
[[File:Modimolle TB hospital iite layout .png|none|thumb|537x537px|Modimolle TB Hospital (site layout)]]
 +
[[File:Modimolle TB hospital patient rooms.png|none|thumb|537x537px|Modimolle TB Hospital (patient rooms)]]
 +
[[File:Natural ventilation design principles.png|none|thumb|535x535px|Modimolle TB Hospital (Natural ventilation design principles)]]
 +
[[File:Catherine Booth construction, windows and ventilation.png|none|thumb|536x536px|Catherine Booth TB Hospital, KwaZulu-NatalRoof (ventilation and windows concept drawings)]]
 +
[[File:Two-bed patient rooms plan.png|none|thumb|537x537px|Catherine Booth TB Hospital, KwaZulu-Natal (Two-bed patient rooms plan)]]
  
 +
='''Bibliography'''=
 +
American Society of Heating, Refrigerating and Air-Conditioning Engineers (ASHRAE), 2004. ANSI/ASHRAE standard 55-2004 Thermal environmental conditions for human occupancy. Atlanta USA: ASHRAE.
  
 +
American Society of Heating, Refrigerating and Air-Conditioning Engineers (ASHRAE), 1999. ANSI/ASHRAE standard 52.2-1999 Method of testing general ventilation air cleaning devices for removal efficiency by particle size. Atlanta USA: ASHRAE.
  
<div style="color:#00000a;">The use of N95 respirators should be used with caution in South Africa as there is no framework of compulsory standards and regulations controlling their use. The user may therefore not be adequetly protected from fake devices. The National Regulator for Compulsory Specification (NRCS) has published a homologated database of FFP2/3 devices compliant with SANS 50149. ([http://www.nrcs.org.za/siteimgs/CMM/Homologation%20Database%20-%20PPE.pdf http://www.nrcs.org.za/siteimgs/CMM/Homologation%20Database%20-%20PPE.pdf])</div>
+
American Society of Heating, Refrigerating and Air-Conditioning Engineers (ASHRAE), 1989. ASHRAE standard 62 Ventilation for acceptable indoor air quality. Atlanta USA: ASHRAE.
  
<div style="color:#00000a;">Surgical (also called procedure) masks, in accordance with SANS 1866, may be worn by patients in order to prevent the dispersion of respiratory droplets and to reduce formation of droplet nuclei. Surgical masks do not adequately prevent airborne particles from being inhaled by the wearer. SANS 1866 Type 2 surgical masks should be used with caution as they resemble N95 or FFP2/3 respirators and may be easily confused with the latter.</div>
+
American Society of Heating, Refrigerating and Air-Conditioning Engineers (ASHRAE), 2003. HVAC design manual for hospitals and clinics. Atlanta USA: ASHRAE.
  
<div style="color:#00000a;">An analysis of the facility design should be made in respect of where provision for personal protective equipment PPE should be made available. These include:</div>* protective eyewear (for UV device maintenance)
+
American Society of Heating, Refrigerating and Air-Conditioning Engineers (ASHRAE), 2009. ANSI/ASHRAE/ASHE standard 170-2008 ventilation of health care facilities''.'' Atlanta USA: ASHRAE.
* respiratory protection (typically respirators for healthcare workers, cleaning and maintenance staff, visitors), and
 
* surgical masks (for patient use).
 
  
 +
Basu, S., Andrew ,J.R., Poolman, E.M., Gandhi, N.R., Shah, N.S., Moll, A., Moodley, P., Galvani, A.P. and Friedland, G.H, 2007. Prevention of nosocomial transmission of extensively drug-resistant tuberculosis in rural South African district hospitals: an epidemiological modelling study. Lancet, 370(9597), pp. 1500 - 1507.
  
 +
Behrman, A., Buchta, W.G., Budnick, L.D., Hodgson, M.J., Raymond, L.W., Russi, M., Spillmann, S.J. and Swift, M.D., 2013. Protecting health care workers from tuberculosis. Journal of Occupational and Environmental Medicine, 55(8), pp.985-988.
  
<div style="color:#00000a;">Dry, secure storage of bulk PPE supplies conveniently located close to points of use should be provided. As respirators are costly and personalised (respirators cannot be shared) secure hanging/ drying facilities clearly marked to avoid confusion are recommended. Stations are required for daily PPE supplies and for disposal facilities (bins) for discarded masks and respirators.</div>
+
British Standards Institution (BSI), 2009. EN 1822-1:2009 High efficiency air filters (EPA, HEPA and ULPA) Classification, performance testing, marking. London: BSI.
  
 +
British Standards Institution (BSI), 2009. EN 1822-2:2009 High efficiency air filters (EPA, HEPA and ULPA): Aerosol production, measuring equipment, particle counting statistics. London: BSI.
  
= {{anchor|Toc428538831}} Planning and design principles =
+
British Standards Institution (BSI), 2009. EN 1822-3:2009 High efficiency air filters (EPA, HEPA and ULPA) Testing flat sheet filter media. London: BSI.
  
<div style="color:#00000a;">For specialised TB services long-term accommodation, the project planning, design, construction and commissioning should aim to provide:</div>* a safe, secure and functional environment for patients and staff;
+
British Standards Institution (BSI), 2009. EN 1822-4:2009 High efficiency air filters (EPA, HEPA and ULPA): Determining leakage of filter elements (scan method). London: BSI.
* optimal accommodation and support for long term patient stay;
 
* low capital and on-going operating costs (service, staffing and maintenance);
 
* an environmentally appropriate design solution; and
 
* a fully accessible, inclusive environment.  
 
  
== {{anchor|Toc339898719}} {{anchor|Toc428538832}} Patient profile ==
+
Brown G.Z. and Huang L. Natural Ventilation in Northwest Buildings [Journal] // ASHRAE Journal 48(1). - 2006. - 48. - pp. 47-52.
  
<div style="color:#00000a;">There are known risk factors associated with an increased likelihood of contracting TB, including DR TB and increased risk of latent disease manifesting in active TB. Patient profile and demographic data are not systematically kept in South Africa, though there appears to be an uneven and fluctuating distribution. Relatively poor socioeconomic groups may be more vulnerable to DR TB infection, but it can (and does) affect anyone regardless of age, gender, race or socioeconomic circumstance. The strong correlation between HIV and TB has been noted. In addition, globally, an increased risk is associated with malnutrition, heavy smoking, silicosis, diabetes mellitus, Hodgkin lymphoma, end-stage renal disease, chronic lung disease, and alcoholism. </div>
+
Brown, G.Z. and Huang, L. 2006. Natural ventilation in Northwest buildings. ASHRAE Journal'','' 48, pp. 47-52.
  
[[Image:|top]]
+
Carroll, K.B., Secombe, C.J. and Pepys, J., 1976. Asthma due to non-occupational exposure to toluene (tolylene) di-isocyanate. Clinical Allergy, 6(2), pp.99–104.
  
{{anchor|Ref269823978}} {{anchor|Toc428539002}} {{anchor|Ref268786780}} Figure 5: Changes in the number of TB notifications in a sample South African community, stratified by age, 1996 - 2004 (Lawn, et al., 2006, p.1043)
+
Centers for Disease Control and Prevention (CDC), 1990. Guidelines for preventing the transmission of mycobacterium tuberculosis in health-care Settings, with special focus on HIV-related issues. (Morbidity and Mortality Weekly Report (MMWR) Vol. 39 No. RR-17). Atlanta, GA: CDC.  
  
[[Image:|top]]
+
Centers for Disease Control and Prevention (CDC), 2005. Guidelines for preventing the transmission of mycobacterium tuberculosis in health-care settings''.'' (Morbidity and Mortality Weekly Report (MMWR) Vol. 54 No. RR-17). Atlanta, GA: CDC.
  
{{anchor|Ref268787003}} {{anchor|Toc428539003}} Figure 6: Total number of TB notifications between 1996 - 2004 in a sample South African community, stratified by age and sex (Lawn, et al., 2006, p.1043)
+
Centres for Disease Control and Prevention (CDC), 2013. Fact sheet: TB elimination: Extensively drug-resistant tuberculosis (XDR TB). [online] Available at: <nowiki>http://www.cdc.gov/tb/publications/factsheets/drtb/xdrtb.pdf</nowiki> [Accessed 21 January 2014].
  
<div style="color:#00000a;">Isolated research studies (whose findings may not be generalizable) in South Africa found that TB incidence and prevalence per gender varies with age (see Figure 5). TB incidence was highest in the population group aged 30-49 years, which is the economically productive age group with highest number of dependants. 11% of cases were in children. In the study there was a significant increase in TB among adolescents, especially girls, between 1996 and 2004 (see Figure 6: Total number of TB notifications between 1996 - 2004 in a sample South African community, stratified by age and sex  Reflecting the global situation, TB affects more men than women.</div>
+
Chartered Institution of Building Services Engineers (CIBSE), 1997. CIBSE applications manual AM10 natural ventilation in non-domestic buildings. London: CIBSE.
  
<div style="color:#00000a;">Some population groups, such as prisoners and miners are at increased risk of contracting TB. </div>== {{anchor|Toc339898720}} {{anchor|Toc428538833}} Patient-centred care ==
+
Chartered Institution of Building Services Engineers (CIBSE), 2000. ''CIBSE applications manual AM13 mixed mode ventilation.'' London: CIBSE.
  
<div style="color:#00000a;">Hospitalisation for DR TB places a unique demand on infrastructure. During their stay patients may become either very ill and in need of hospital acute care, to being well or feel quite well only requiring supervised medication. In order to support patient care, part step-down quasi residential-type accommodation should be provided, so that patients who are feeling well can feel “at home”; and part hospital-type accommodation should be provided, in areas where direct staff supervision is possible. </div>
+
Culver, D.A, Gordon, S.M. and Mehta, A.C., 2003. Infection control in the bronchoscopy suite: a review of outbreaks and guidelines for prevention. American Journal of Respiratory and Critical Care Medicine'';'' 167(8), pp.1050-6.
  
<div style="color:#00000a;">There is strong evidence from research studies which describe the importance of health facility design as a means to improve health outcomes (Ulrich, et al., 2008). The more supportive the environment is, the less chance there will be of admitted patients absconding and infecting others in the community while still in an infectious stage of the disease. Environmental factors such as large windows with high levels of daylight, views of nature, low noise levels all reduce stress and depression and promote healing. Some visual and acoustic privacy (screening for confidential/ personal activities in counselling, consulting and ward areas) promotes patient dignity. Personal choice and control over heating, lighting and furniture layout instils a sense of empowerment. </div>=== {{anchor|Toc339898721}} {{anchor|Toc428538834}} Safety ===
+
Department of Health and Human Services (DHHS) and National Institute for Occupational Safety and Health (NIOSH), 2009. Environmental control for tuberculosis: Basic upper-room ultraviolet germicidal irradiation guidelines for healthcare settings''.'' Atlanta, GA: DHHS.
  
<div style="color:#00000a;">There are several aspects of risk that should be addressed by the consultant team. They include: infection prevention and control (for airborne and other modes of transmission) slips and falls, fire, and UV exposure. Only the most likely and critical of risks have been addressed in this document. </div>=== {{anchor|Toc339898753}} {{anchor|Toc339898722}} {{anchor|Toc428538835}} Isolation ===
+
Department of Public Works, 2005. Space planning norms and standards for office accommodation used by organs of state. (Government notice 1665). Cape Town South Africa: Government Gazette.
  
<div style="color:#00000a;">Distinction can be made between five types of segregation:</div>* Separation – patients are housed in single room accommodation though they may not be self-harming or violent.
+
Dugger, C.W., 2008. In South Africa, TB patients behind barbed wire. The New York Times'','' [online] 24 March. Available at: <nowiki>http://www.nytimes.com/2008/03/24/world/africa/24iht-saf.4.11377837.html?pagewanted=all&_r=0</nowiki> [Accessed 26 March 2014]. 
* Negative pressure room applied to infectious patients, with airlock ante-chamber (e.g. TB patients).  
 
* Positive pressure isolation room applied to immuno-compromised/ susceptible patients, with airlock (e.g. burns patients).
 
* Duel-function isolation – with controls to convert from positive to negative pressure according to current room occupancy, with airlock. This is discouraged due to complexities in designing and operating these and due to increase risk in accidental incorrect use.
 
* Seclusion (Social isolation) – for patients who are self-harming or violent. A room with high level of security which complies with national norms and standards for psychiatric care facilities. Airlock not required.
 
* <div style="margin-left:1.259cm;margin-right:0cm;">Barrier isolation – patients are housed within a chamber constructed of an impermeable barrier and typically ventilated through HEPA filters. Decontamination airlocks and material transfer chambers are included in the system. These types of systems are exclusively used for suspected P4 level pathogens, and are not indicated for use with TB patients.</div>
 
  
 +
First, M.W., Nardell, E.A., Chaisson, W. and Riley, R., 1999. Guidelines for the application of upper-room ultraviolet germicidal irradiation for the prevention of airborne contagion- part I: Basic principles. ASHRAE Transactions 105(1).
  
 +
First, M.W., Nardell, E.A., Chaisson, W. and Riley, R., 1999b. Guidelines for the application of upper-room ultraviolet germicidal irradiation for the prevention of airborne contagion- part II: Design and operation guidance. ASHRAE Transactions 105(1).
  
<div style="color:#00000a;">When briefing professional consultant teams, it is important to convey where each of the above is required. For TB, infection control is useful and usually all that is provided. For further information on Isolation rooms, the reader is referred to the IUSS Adult In-patient Services guidance document. [http://www.iussonline.co.za/norms-and-standards/gazetted-clinical-services/]</div>=== {{anchor|Toc428538836}} Infection prevention and control ===
+
Gandhi, N.R., Shah, N.S., Andrews, J.R., Vella, V., Moll, A.P., Scott, M., Weissman, D., Marra, C., Lalloo, U.G., and Friedland, G.H. and Tugela Ferry Care and Research Collaboration, 2010. HIV coinfection in multidrug and extensively drug-resistant tuberculosis results in high early mortality. American Journal of Respiratory and Critical Care Medicine, 181(1),pp.80-86.
  
<div style="color:#00000a;">The most critical aspect of risk in the design is from the point of view of airborne infection control. This aspect has been addressed in detail in previous sections (for airborne infection) and in the. Refer to <span style="color:#00000a;"><u>''IUSS:GNS Infection prevention and control''</u></span>. </div>=== {{anchor|Toc339898723}} {{anchor|Toc428538837}} Slips, trips and falls ===
+
Hamilton, K. and Yau, J., 2004. The global tug-of-war for health care workers. Washington USA: Migration Policy Institute. Available at: <nowiki>http://www.migrationinformation.org/feature/display.cfm?ID=271</nowiki> [Accessed 4 February 2014].
  
<div style="color:#00000a;">Slippery floor surfaces should be avoided, particularly externally. Contrasting colours should be used at changes in floor level to assist visually impaired persons. Adequate lighting, handrails and guardrails should be provided. External paving areas should be well drained.</div>=== {{anchor|Toc339898724}} {{anchor|Toc428538838}} Alarms and fire alarms ===
+
Hinds, W.C., 1999. Aerosol technology: Properties, behaviour and measurement of airborne particles''.''2nd ed. New York: John Wiley & Sons.
  
<div style="color:#00000a;">In addition to the usual compliance requirements, it should be noted that as deafness is a common side-effect of TB treatment regimes, all sounding alarms including fire alarms should be supplemented with visible alarms in patient areas e.g. red or yellow flashing lights to accompany fire or emergency evacuation alarms.</div>=== {{anchor|Toc339898725}} {{anchor|Toc428538839}} UV exposure risk ===
+
International Organisation for Standardisation (ISO), 2005. ISO 14644-3 Cleanrooms and associated controlled environments - Part 3: Test methods. Switzerland: ISO.
  
<div style="color:#00000a;">Where ultraviolet radiation germicidal irradiation (UVGI) is contemplated, due consideration must be made to potential adverse health effects on patients, staff (including maintenance staff) and visitors. For convenience the UV spectrum is described in three different wavelength bands: UVA (long wave lengths, range: 320–400 nm), UVB (midrange wavelengths, range: 290–320 nm) and UVC (short wave lengths, range: 100–290 nm).</div>
+
International Radiation Protection Association (IRPA), 1985. Guidelines on Limits of Exposure to Ultraviolet Radiation of Wavelengths between 180 nm and 400 nm (Incoherent Optical Radiation). Health Physics, 39, pp. 331–340.  
  
<div style="color:#00000a;">UVC is unlike UVA and UVB, as it has extremely low penetrating ability. It is nearly completely absorbed by the outer layer of the skin (stratum corneum), where little or no harm is experienced. Although listed as a potential carcinogen for man, UVC is unlikely to be carcinogenic or to cause skin or eye irritation (keratoconjunctivitis) if applied correctly within exposure limits as set out by the International Radiation Protection Agency (IRPA) and other international health bodies.</div>
+
Joshi, R., Reingold, A.L., Menzies, D., and Pai, M., 2006. Tuberculosis among health-care workers in low- and middle-income countries: A systematic review. PLoS Medicine, 3(12).
  
 +
Ko Gwangpyo, First Melvin W and Burge Harriette A The Characterization of Upper-Room Ultraviolet Germicidal Irradiation in Inactivating Airborne Microorganisms [Journal] // Environmental Health Perspectives - Harvard School of Public Health. - Boston : EBSCO, January 2002. - 1 : Vol. 110. - pp. 95-101. - Harvard School of Public Health.
  
<div style="color:#00000a;">Since open UVGI devices are principally designed to emit a certain amount of UV-c radiation, these devices cannot be considered to be intrinsically safe. The UVGI system should be designed to achieve the maximum system output and maintain the lowest reasonable exposure levels in the occupied zone of the room. </div>
+
Ko, G., First, M.W. and Burge, H.A., 2002. The characterization of upper-room ultraviolet germicidal irradiation in inactivating airborne microorganisms. Environmental Health Perspectives'','' 110(1), pp.95- 101.
  
<div style="color:#00000a;">The primary safety concern with UVGI in controlling eye exposure to prevent irritation, limits the irradiance limits achievable in the occupied room.</div>=== {{anchor|Toc428538840}} Safe Exposure Limit  ===
+
Lawn, S.D., Bekker, L.G., Middelkoop, K., Myer, L. and Wood, R., 2006. Impact of HIV infection on the epidemiology of tuberculosis in a peri-urban community in South Africa: the need for age-specific interventions. Clinical Infectious Diseases, 42(7), pp.1040-1047.
  
<div style="color:#00000a;">The occupied rooms considered for UVGI should not exceed an exposure dose below 6 mJ/cm² (for mercury vapour lamps at 254 nm 15) and 3.8 mJ/cm² (at 265nm) per 8h. </div>
+
London, L., 2009. Confinement for extensively drug-resistant tuberculosis: balancing protection of health systems, individual rights and the public’s health. International Journal of Tuberculosis and Lung Disease, 13(10), pp.1200-9.
  
<div style="color:#00000a;">Therefore, in the typical application of 254nm devices, occupant exposure shall not exceed 0.40µW/cm² for a period of time equivalent to 4 hours per work day. If exceeded, steps must be taken to reduce the effective irradiance dose to less than 6.0mJ/cm2 for the total duration per day.</div>
+
Menzies, D., Joshi, R., Pai, M., 2007. Risk of tuberculosis infection and disease associated with work in health care settings. The International Journal of Tuberculosis and Lung Disease. 11(6), pp.593-605.
  
<div style="color:#00000a;">It becomes important to consider the actual nature and usage of these spaces to determine appropriate safe exposure rates. In determining these rates, occupancy factors such as the eye level of regular occupants, position of occupants (seated, standing, lying down), frequency and duration of exposure, need to be determined and incorporated. Therefore different areas or rooms will require different safety limits.</div>
+
Molhave, L., 1987. The sick buildings-A subpopulation among the problem buildings. In: Seifert, B.; Esdorn, H.; Fischer, M.; Rueden, H.; Wegner, J., eds. Indoor Air ’87, 4th international conference on indoor air quality and climate. West Berlin Germany, August 1987. Berlin Germany: Institute for water, soil and hygiene.
  
<div style="color:#00000a;">Areas such as passages and wards would therefore demand vastly different safety limits from each other. </div>
+
Molhave, L., Bach, B. and Pedersen, O.F., 1986. Human reactions to low concentrations of volatile organic compounds. Environment International, 12(1-4), pp.167–175.
  
<div style="color:#00000a;">The economic considerations of infection control suggest that high risk areas be given priority for air disinfection. These areas will be determined through the outcome of a comprehensive risk assessment of the facility. Installation of open UVGI devices in stairwells is not considered safe practice as there is seldom sufficient soffit height for an effective upper room zone. Where passages are used as return air plenums in recirculating ventilation systems, these passages shall be considered for air disinfection. </div>=== {{anchor|Toc428538841}} Reflections into the Lower Room ===
+
Morey, P.R., Hodgson, M.J., Sorenson, W.G., Kullman, G.J., Rhodes, W.W. and Visvesvara, G.S., 1984. Environmental studies in moldy office buildings: Biological agents, sources and preventive measures. In: Annual American conference of governmental industrial hygiene, Vol. 10, 1984, pp.21-35.
  
<div style="color:#00000a;">The potential of high UV intensities being reflected into the occupied room must be considered by designers and users. Certain materials and surfaces that reflect visible light might also reflect UV-c light; for example consider reflectors of regular open luminaires, windows, exposed ducting and metallic or high gloss architectural finishes in the upper room.</div>=== {{anchor|Toc339898726}} {{anchor|Toc428538842}} Security ===
+
Naidoo, S. and Jinabhai, C.C., 2006. TB in health care workers in KwaZulu-Natal, South Africa. The International Journal of Tuberculosis and Lung Disease, 10(6),pp.676-682.
  
<div style="color:#00000a;">In the South African context, there is considerable store in balancing security needs, so that patients and staff feel that their person and their personal belongings are protected from harm. Detailed guidance is provided in [http://www.iussonline.co.za/norms-and-standards/cross-cutting-issues/ IUSS:GNS Security].</div>=== {{anchor|Toc339898727}} {{anchor|Toc428538843}} Inclusive design  ===
+
Nardell, E.A., 1995. Interrupting transmission from patients with unsuspected tuberculosis: a unique role for upper room ultraviolet air disinfection. American journal of Infection Control, 23(2),pp.156 64.
  
<div style="color:#00000a;">In accordance with the Constitution of South Africa, Occupational Health and Safety Act, the Promotion of Equality and Prevention of Unfair Discrimination Act and the UN Convention on Rights of People with Disabilities, Universal Design is a key requirement for all public buildings in South Africa. Refer to [http://www.iussonline.co.za/norms-and-standards/cross-cutting-issues/ IUSS:GNS Inclusive environments].</div>=== {{anchor|Toc428538844}} {{anchor|Toc339898728}} Holistic care ===
+
National Department of Health (NDoH), 2007. The draft national infection prevention and control policy for TB, MDRTB and XDRTB. South Africa: NDoH.
  
<div style="color:#00000a;">DR TB facilities must accommodate patient care, dignity and wellbeing. Medical and accommodation needs are clearly the minimum and most critical aspect that must be addressed by the facility. However the accommodation needs for long-term care must address patients’ needs in a more holistic way. </div>=== {{anchor|Toc339898729}} {{anchor|Toc428538845}} Balanced service provision ===
+
National Department of Health, 2007. Management of drug-resistant tuberculosis: Policy guidelines. [pdf]  South Africa: NDoH. Available at: <nowiki>http://www.search.gov.za</nowiki> [Accessed 26 March 2014].
  
<div style="color:#00000a;">Some of the identified problems related to long-term patient needs are isolation of economically active sufferers from their working environment, and interruption of schoolwork in children. The provision of education and development programmes for adults and children alike (library and multi-media facilities have the potential to reduce isolation, stigmatisation, and to contribute to a positive frame of mind) are therefore just some of the issues that can be addressed via facility design. A small business hub with information communications technology (ICT) connectivity may be provided to assist patients who may need to keep their businesses running while under treatment. Both indoor and outdoor recreational activities and other opportunities for physiological, psychological and spiritual needs during this extended stay should be provided in the facility. The provision of patient support accommodation and social counselling and support (visits from relatives and friends) is essential to promote a sense of wellbeing and purpose. Allied health services such as pharmacy, and rehabilitation therapy (occupational therapy, physiotherapy, and social work) play a critical role in supporting whole-patient care. Treatment side effects may include hearing loss, so that provision of audiology booth for regular testing is useful. Screened, covered and well-ventilated sputum booths should be provided in close proximity to clinical areas for production of sputum samples. These may be equipped with a hand-wash basin, a shelf and a plug point, to allow for nebulisation. Chest (and other) x-rays need to be taken, therefore provision of x-ray facilities with appropriate radiation protection should be provided. </div>
+
National Department of Health, n.d. Tuberculosis strategic plan for South Africa, 2007-2011''.'' [pdf] South Africa: NDoH. Available at: <nowiki>http://www.search.gov.za/info/search.jsp</nowiki>. [Accessed 26 March 2014].
  
<div style="color:#00000a;">Given resource constraints, it is not always possible to invest in the full complement of these facilities at DR TB centres in one capital investment. However, as each potentially adds to quality of care that can be delivered, which leads both directly and indirectly (say, through preventing absconding) to improved health outcomes, best practice recommends that these aspects be addressed as fully as practicable. It is useful to produce master-plan proposals, within a phasing framework so that a full complement of services can be provided over time, and so that short term development does not compromise medium and long term development potential. </div>
+
National Institute for Occupational Health and Safety (NIOSH) and U.S Department of Health, Education and Welfare, 1972. Occupational exposure to ultraviolet radiation. [pdf] Atlanta, GA: Department of Health, Education and Welfare. Available at: <nowiki>http://www.cdc.gov/niosh/pdfs/7311009a.pdf</nowiki> [Accessed 26 March 2014].
  
<div style="color:#00000a;">Patients in some DR TB settings are permitted to prepare their own meals, but this is unusual practice and is usually optional and reserved for patients who are pending discharge. Policies in terms of meal presentation and delivery vary between institutions. Three basic modes of delivery include a pre-plated service delivered to the patient bed. The second mode is a tray served at a dining table and the third is a buffet-style service. As meal preparation services are frequently outsourced, the first two modes of delivery are most commonly found in South Africa. Dedicated dining facilities are not always available, so that meals must be served at patients’ bedsides or lounge areas (if provided). Bedridden and ill patients may be unable to use formal dining facilities. International studies in long-term care facilities have shown that there are increased appetite, nutrition and patient satisfaction in communal dining settings, and particularly with buffet-style eating. However these studies have primarily been undertaken for the elderly. Similar studies have not been undertaken in South Africa or for TB patients. To complicate matters, patients in communal dining settings are unable to use personal protective equipment, raising risk at these encounters. Nevertheless it is recommended that patient formal dining facilities be provided for and that they are treated as high risk areas in terms of infection control.</div>
+
Parsons, S.A., Abbott, G.R., De Jager, P., Conradie, D.C.U. and Bole, S., 2010. Researched solutions for long-term accommodation units for drug-resistant tuberculosis patients in South Africa. In: CSIR, Science real and relevant conference. CSIR International Convention Centre Pretoria, South Africa, 2010. Pretoria: CSIR.
  
<div style="color:#00000a;">Facility policy may provide that patients in long-term care facilities are encouraged to participate in cleaning, laundry and gardening activities. </div>=== {{anchor|Toc339898730}} {{anchor|Toc428538846}} Healing environments ===
+
Price Waterhouse Coopers LLP in association with the University of Sheffield and Queen Margaret University College Edinburgh, 2004. The role of hospital design in the recruitment, retention and performance of NHS nurses in England. [pdf] Belfast UK: Commission for Architecture and the Built Environment (CABE). Available at: <nowiki>http://webarchive.nationalarchives.gov.uk/20110118095356/http:/www.cabe.org.uk/files/the-role-of-hospital-design-appendices.pdf</nowiki> [Accessed 13 February 2014].
  
<div style="color:#00000a;">International research into evidence-based design has concluded that well designed built environments can play a critical role in improving healing outcomes. Infrastructure has an important role to play in this respect. Long-term DR TB care facilities should not only address the needs of patients and their families, but also the needs of healthcare workers.</div>=== {{anchor|Toc339898731}} {{anchor|Toc428538847}} Occupant comfort ===
+
Riley, R.L, Mills, C.C, O’Grady, F., Sultan, L.U., Wittstadt, F. and Shivpuri, D.N., 1962. Infectiousness of air from a tuberculosis ward. Ultraviolet irradiation of infected air: comparative infectiousness of different patients. The American Review of Respiratory Disease, 85, pp.511-25.
  
<div style="color:#00000a;">While ventilation is of significant importance to maintain effective infection control within the healthcare buildings, one of the most critical aspects of patient recovery is adherence and completion of their treatment regime. </div>
+
Riley, R.L. and Nardell, E.A., 1989. Clearing the air: The theory and application of ultraviolet air disinfection. The American Review of Respiratory Disease'','' 139(5), pp.1286– 1294.
  
<div style="color:#00000a;">Buildings should be designed so that comfort conditions in indoor environments can be achieved irrespective of climate conditions, bearing in mind that TB sufferers are typically very underweight and may have little tolerance for cold. The climate may require supplemental heating to achieve comfort conditions in winter without compromising the ventilation requirements. The operational constraints of the hospital (in terms of maintenance and operational costs as well as environmental impact) mean that fully air-conditioned or heated wards are usually not desirable either.</div>
+
Riley, R.L. and O’Grady, F., 1961. Airborne infection: Transmission and control. New York USA: The Macmillan Company.  
  
<div style="color:#00000a;">The ISO standard 7730 provides a measure of thermal comfort based on the predicted mean vote (PMV) method. The ASHRAE 55 ''Thermal environmental conditions for human occupancy'' guide provides methodology for measuring comfort conditions, including provision for naturally ventilated buildings. It is proposed that these form the basis of the design assessment relating to thermal comfort.</div>
+
Riley, R.L., 1974. Airborne infection. The American Journal of Medicine, 57, pp.466-475.
  
<div style="color:#00000a;">The ventilation and comfort control design must weigh up these competing requirements to provide an optimal indoor environment (ventilation and thermal comfort) while bearing in mind the operational impacts on the hospital in the long term. As such, the following metrics should be used to demonstrate an optimal balance of ventilation, thermal comfort and operational costs:</div>* Proportion of hours where the targeted ACH rate is achieved (currently 160 l/s per person for naturally ventilated areas)
+
Riley, R.L., Knight, M. and Middlebrook, G., 1976. Ultraviolet susceptibility of BCG and virulent tubercle bacilli. The American Review of Respiratory Disease, 113(4), pp.413–418.
* Proportion of hours where either:
 
* PMV levels between -1.0 and 1.0 are achieved; or
 
* Acceptability limits of ASHRAE Standard 55, 2004 are achieved within 80% of acceptability limit 1
 
* Predicted operational costs (energy use and maintenance)  
 
  
 +
Samet, J.M., Marbury, M.C. and Spengler, J.D., 1988. Health effects and sources of indoor air pollution. Part II. The American Review of Respiratory Disease, 137(1), pp.221–242.
  
 +
Sanjaya, N.S. and Mark, J.F., 2004. Detention for tuberculosis: public health and the law. Medical Journal of Australia'','' 180(11), pp.573–576.
  
<div style="color:#00000a;">The decision-making with respect to the mechanical or natural ventilation system or other systems relating to thermal comfort should take all these into account. </div>== {{anchor|Toc339898732}} {{anchor|Toc428538848}} Staff: patient ratios ==
+
Singh, J.A., Upshur, R., and Padayatchi, N., 2007. XDR-TB in South Africa: No time for denial or complacency. PLoS Medicine, 4(1). January 2007; 4(1), 19-25.
  
<div style="color:#00000a;">According to the ''Decentralised Management of Multi Drug Resistant TB – a Policy Framework for South Africa'', a provincial/ centralised MDR TB unit requires the following minimum staffing levels. This should be cross-referenced against the WHO Document “Workload Indicators of Staffing Need” (WHO, 2010) which has been formally adopted by the NDoH:</div>
+
Singh, T, van Reenen, T, de Jager, P, Poluta, M, Stoltz, A, 2015. ''UVGI Disinfection Of Room Air: An Evidence Based Guideline for Design, Implementation and Maintenance'', Available at: <nowiki>  [https://www.tb-ipcp.co.za/tools-resources/documents-paper-and-articles </nowiki> [Accessed 26 Aug 2015]
  
Doctor1/40 beds
+
South African Bureau of Standards, 2011. SANS 10400-O:2011 The application of the national building regulations Part O: Lighting and ventilation. Pretoria South Africa: SABS Standards Division.
  
Professional nurse / Staff nurse or Nursing Assistant4/ 11 per 40 beds
+
Southern African Legal Information Institute (SAFLII), 2008. Minister of health of the province of the Western Cape v Goliath and others. (Case number 13741/07). [pdf] Cape Town: SAFLII. Available at <nowiki>http://www.saflii.org/za/cases/ZAWCHC/2008/41.pdf</nowiki> [Accessed 27 March 2014].
  
Pharmacist1 per 100- 200 beds
+
The Occupational Health and Safety Act 1993. s.8(1). Cape Town South Africa: Government Gazette.
  
Social worker 1 for > 40 beds
+
The South African Pharmacy Council, 2010. Good pharmacy practise in South Africa.  4th ed. Arcadia Pretoria: South African Pharmacy Council.
  
Dietician1 for > 40 beds
+
Ulrich, R.S., Zimring, C., Zhu, X., DuBose, J., Seo, H.B., Choi, Y.S., Quan, X. and Joseph, A., 2008. A review of the research literature on evidence-based healthcare design. Health Environments Research & Design, 1(3), pp.61-125.
  
Clinical Psychologist 1 for > 40 beds
+
WHO Natural Ventilation for Infection Control in Health-Care Settings [Book]. - 2009.
  
OT1 for > 40 beds
+
World Health Organisation (WHO), 2008. Intergrated health services- what and why? (Technical brief No. 1.). Geneva: WHO.
  
Audiologist1 for > 40 beds
+
World Health Organisation (WHO), 2009a. Natural ventilation for infection control in health-care settings [pdf] Geneva Switzerland: WHO Press. Available at: <nowiki>http://whqlibdoc.who.int/publications/2009/9789241547857_eng.pdf</nowiki> [Accessed 13 February 2014].
  
Physiotherapist1 for > 40 beds
+
World Health Organisation (WHO), 2010. Workload indicators of staffing need: User’s manual. Geneva: WHO.
  
Data Capturer/ Admin Clerk1 for 100- 200 beds
+
World Health Organisation (WHO), 2013. Global tuberculosis report.  Geneva: WHO.
  
Driver1 for > 40 beds
+
Xu Peng [et al.] Efficacy of ultraviolet germicidal irradiation of upper-room air in inactivatingairborne bacterial spores and mycobacteria in full-scale studies [Journal] // Athmospheric Environment 37. - 2003. - pp. 405-419.
  
{{anchor|Toc428539021}} Table '''4''': Sample Organisational Development Investigation the following staffing complement per 30 bed functional unit (''courtesy Brooklyn Chest Hospital'').  
+
Xu, P., Peccia, J., Fabian, P., Martyny, J.W., Fennelly, K.P., Hernandez, M. and Miller, S.L., 2003. Efficacy of ultraviolet germicidal irradiation of upper-room air in inactivating airborne bacterial spores and mycobacteria in full-scale studies. Atmospheric Environment, 37 (2003), pp.405–419.
  
 
+
='''Abbreviations'''=
{| style="border-spacing:0;width:14.443cm;"
+
{| class="wikitable"
|- style="border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;"
+
|ACGIH
|| '''OFFICE: ADMINISTRATION'''
+
|American  Conference of Governmental Hygienists
|| '''NUMBER OF POSTS'''
+
|-
|| '''COMMENTS'''
+
|ACH
|- style="border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;"
+
|Air changes per hour
|| Administration clerk
+
|-
|| 1
+
|AIA
||
+
|American Institute of Architects
|- style="border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;"
+
|-
|| CLINICAL SERVICES
+
|AIIR
||
+
|Airborne infection isolation room
||
+
|-
|- style="border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;"
+
|ASHRAE
|| Medical officer
+
|American Society of Heating, Refrigerating and  Air-Conditioning Engineers
|| 1
+
|-
||
+
|CDC
|- style="border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;"
+
|Centers for Disease Control and Prevention (US  agency)
|| MEDICAL AUXILLARY SERVICES
+
|-
||
+
|CSIR
||
+
|Council for Scientific and Industrial Research
|- style="border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;"
+
|-
|| Physiotherapist
+
|CSSD
||
+
|central sterile supply department
|| Central services
+
|-
|- style="border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;"
+
|DR
|| Occupational therapist
+
|drug-resistant
||
+
|-
|| Central services
+
|DR TB
|- style="border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;"
+
|drug-resistant TB
|| Social work
+
|-
||
+
|EIA
|| Central services
+
|environmental impact assessment
|- style="border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;"
+
|-
|| Dietician
+
|IAQ
||
+
|indoor air quality
|| Central services
+
|-
|- style="border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;"
+
|ICT
|| Audio/speech therapist
+
|information communications technology
||
+
|-
|| Central services
+
|IPC
|- style="border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;"
+
|infection prevention and control
|| Clinical Psychologist
+
|-
||
+
|IRPA
|| Central services
+
|International  Radiation Protection Agency
|- style="border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;"
+
|-
|| Radiographer
+
|LEV
||
+
|local exhaust ventilation
|| Central services
+
|-
|- style="border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;"
+
|MDR TB
|| Pharmacist
+
|multi-drug-resistant TB
||
+
|-
|| Central services
+
|NDoH
|- style="border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;"
+
|National Department of Health
|| Counsellor
+
|-
||
+
|NGO
|| Central services
+
|non-governmental organisation
|- style="border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;"
+
|-
|| NURSING SERVICES
+
|NHLS
||
+
|National Health Laboratory Service (SA agency)
||
+
|-
|- style="border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;"
+
|NHI
|| ASD nursing area
+
|National Health Insurance
||
+
|-
|| Central services
+
|NIOSH
|- style="border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;"
+
|National Institute of Occupational Safety and  Health (US agency)
|| Operational manager nursing
+
|-
|| 1
+
|OHS
||
+
|occupational health and safety
|- style="border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;"
+
|-
|| Professional nurse
+
|OPD
|| 4
+
|outpatient department
||
+
|-
|- style="border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;"
+
|OT
|| Staff nurse
+
|occupational therapy / occupational therapist
|| 4
+
|-
||
+
|PAC
|- style="border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;"
+
|Portable air cleaner
|| Auxiliary nurse
+
|-
|| 8
+
|PHC
||
+
|primary healthcare
|- style="border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;"
+
|-
|| Housekeeping supervisor
+
|PMV
|| 1
+
|predicted mean vote
||
+
|-
|- style="border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;"
+
|PPE
|| Household aid
+
|personal protective equipment
|| 6
+
|-
||
+
|QASA
|- style="border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;"
+
|Quadra-para Association of South Africa
|| NIGHT DUTY MANAGEMENT
+
|-
||
+
|REL
||
+
|recommended  exposure limit
|- style="border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;"
 
|| Night duty manager
 
|| 1
 
|| Central services
 
|- style="border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;"
 
|| Professional nurse
 
|| 1
 
||
 
|- style="border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;"
 
|| Staff nurse
 
|| 3
 
||
 
|- style="border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;"
 
|| Auxiliary nurse
 
|| 2
 
||
 
|- style="border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;"
 
|| Household aid
 
|| 1
 
||
 
 
|-
 
|-
|}
+
|RH
== {{anchor|Toc339898733}} {{anchor|Toc428538849}} Supporting the caregiver ==
+
|relative humidity
 
 
=== {{anchor|Toc339898734}} {{anchor|Toc428538850}} Recruitment, retention and productivity in staff ===
 
 
 
<div style="color:#00000a;">International research has shown that infrastructure has a part to play in staff recruitment, retention and productivity. South Africa has been experiencing an extended challenge in respect of attracting and retaining qualified healthcare professionals. This challenge is particularly marked in TB–specialist skills because of the additional risk. This risk is not merely perceived. Healthcare workers generally and TB-specialists specifically are exposed to higher risk of infection and higher infection rates than the general population. </div>
 
 
 
<div style="color:#00000a;">Staff is thus a critical factor to take into consideration when DR TB planning facilities. In particular the provision of safe working environments:</div>* which address risk from an IPC perspective in a way which is explicit and reassuring;
 
* which provides for physical safety against violent/ disturbed patients; and
 
* which allow adequate safe storage for personal belongings.
 
 
 
 
 
 
 
<div style="color:#00000a;">Provision of staff housing, recreation facilities and other staff amenities may be an attractive benefit.</div>=== {{anchor|Toc339898735}} {{anchor|Toc428538851}} Additional personnel considerations ===
 
 
 
<div style="color:#00000a;">From an infrastructure point of view, it is critical that maintenance posts are established and filled with incumbents who are appropriately skilled to address the specialised needs of DR TB facilities, infection control and healing environments. As with healthcare workers, there are challenges in attracting and retaining skilled artisans, engineers, and health facility specialist maintenance staff, particularly in environments perceived to be high-risk. </div>
 
 
 
<div style="color:#00000a;">While the most significant factor in staff recruitment and retention is salaries and benefits, especially in relation to many overseas destinations, many experts emphasize that pay is not the sole motive for leaving the South African public service. Other factors include poor work environments characterized by heavy workloads, lack of supervision, and limited organizational capacity. There are also environmental considerations; workplaces may be dangerous due to condition, functional or environmental design, or there may be a lack of supplies to protect workers from occupational exposure to diseases like tuberculosis.</div>== {{anchor|Toc339898736}} {{anchor|Toc428538852}} Site appraisal ==
 
 
 
<div style="color:#00000a;">Where feasible the principle of redevelopment and reuse of existing buildings should be investigated before building new buildings. As a first stage in providing a comprehensive appraisal of the site, the consultant team should collect, collate and prepare a full assessment of accommodation and engineering services at the existing site including:</div>=== {{anchor|Toc339898737}} {{anchor|Toc428538853}} Building layouts ===
 
 
 
* existing buildings with measured footprint and scaled spatial layout on site plan;
 
* current functional allocation (use) of existing buildings;
 
* level of utilisation of buildings;
 
* national monument status;
 
* building condition assessment (high level and quick professional estimate on scale one condemn to five as new);
 
* evaluate of the level of accessibility of proposed new structures and linkages to existing buildings; and
 
* evaluation of existing pedestrian and vehicular routes (i.e. staff, visitors, and service vehicular and pedestrian routes) to determine optimum layout of proposed new buildings.
 
 
 
 
 
 
 
<div style="color:#00000a;">A coloured site map should be prepared by the consultant team using the coding provided below to visualise the suitability of the existing building stock (see figure 8) and the condition of the existing building stock (see figure 9). </div>
 
 
 
[[Image:|top]]
 
 
 
{{anchor|Toc428539004}} Figure 7: Recommended suitability coding for site appraisal
 
 
 
[[Image:|top]]
 
 
 
{{anchor|Toc428539005}} Figure 8: Recommended condition assessment coding for site appraisal=== {{anchor|Toc339898738}} {{anchor|Toc428538854}} Site Information ===
 
 
 
* Major landscaping, trees and features;
 
* Site access points for staff, patients and service personnel and access constraints;
 
* Existing fencing and level of security provided;
 
* Service connection points, main service runs, water tanks (as they are currently being constructed), transformers, substations, generators, etc.; and
 
* Flood lines, water table levels, site storm water drainage and general potential for flooding.
 
 
 
=== {{anchor|Toc339898739}} {{anchor|Toc428538855}} Engineering and bulk services ===
 
 
 
<div style="color:#00000a;">Engineering services</div>* Power: Analysis of existing power supply – types, current load, reliability, capacity, potential for expansion,
 
* Water supply: Analysis of existing water supply – source/s, storage, condition, current and projected demand,
 
* Sewage: Analysis of existing sewage reticulation and disposal system, connections, capacity, condition, current and projected load,
 
* ICT services: Telephones, internet connectivity, intranet connectivity. Analysis of existing supply – types, load, reliability, capacity, potential for expansion,
 
* Other services as identified by consultant team (gas, steam etc.)
 
 
 
 
 
 
 
<div style="color:#00000a;">It is recommended that the photographic survey of existing infrastructure be compiled by the consultants.</div>=== {{anchor|Toc339898740}} {{anchor|Toc428538856}} Climatic and sustainability considerations ===
 
 
 
<div style="color:#00000a;">Prevailing climate conditions should be taken into consideration during the design process. The closest freely available (open source/ public domain) or alternate annual and diurnal temperature, rainfall, wind-speed and direction data should be collected, analysed and used in addressing building performance and patient comfort objectives (see Figure 10). Material specifications and details should address corrosive attributes associated with proximity to the sea. </div>
 
 
 
<div style="color:#00000a;">Rational peak demand of electricity use and demand management systems should be considered in the design and specification. There should be a split between essential and non-essential electricity use, and emergency backup should be provided for essential services. Separate metering for water and electricity should be provided for the new unit. Refer to<span style="color:#00000a;"><u>'' ''</span>[http://www.iussonline.co.za/norms-and-standards/cross-cutting-issues/ IUSS:GNS Sustainability and the environment]. </div>=== {{anchor|Toc339898741}} {{anchor|Toc428538857}} Future development  ===
 
 
 
<div style="color:#00000a;">Future development for the site should be studied. The consultant team is to provide evidence that a very high level study has been undertaken to ascertain whether or not the proposed facility will likely compromise, limit or enable the proposed development through appropriate means (such as crude scale block positioning on site). The implications of the project on future development should be discussed in an open forum with stakeholders. Consideration should be given to the optimal positioning and size of central services to satisfy the future demand of the hospital site.</div>== {{anchor|Toc339898742}} {{anchor|Toc428538858}} Additional Project Studies, Approvals and Requirements ==
 
 
 
=== {{anchor|Toc339898743}} {{anchor|Toc428538859}} Environmental Impact Assessment (EIA)  ===
 
 
 
<div style="color:#00000a;">An Environmental impact assessment (EIA) may be required. </div>=== {{anchor|Toc339898744}} {{anchor|Toc428538860}} Local authority submissions ===
 
 
 
<div style="color:#00000a;">The following approvals must be provided, as stipulated by the local authority:</div>* A site development plan (SDP);
 
* A copy of a set of working drawings;
 
* A traffic engineer’s report; and
 
* A fire department.
 
 
 
=== {{anchor|Toc339898745}} {{anchor|Toc428538861}} Phasing and decanting ===
 
 
 
<div style="color:#00000a;">Where the project calls for a construction project to be conducted within an existing functional healthcare environment, phasing and decanting plans are required. The appropriate precautionary measures should be taken. Refer to [http://www.iussonline.co.za/norms-and-standards/procurement-and-operation/ IUSS:GNS Decommissioning][http://www.iussonline.co.za/norms-and-standards/procurement-and-operation/ .] The services currently provided for at the hospital must continue with as little disruption as is reasonably possible. Phased construction and/ or temporary decanting of functions may be required. Should decanting activities be required to accommodate the construction project, then this activity should be planned timeously with all stakeholders’ involvement under the leadership of the briefing authority (or if defined as extraordinary scope of services, principal agent, contractor or other clearly identified party).</div>=== {{anchor|Toc339898746}} {{anchor|Toc428538862}} Commissioning and validation ===
 
 
 
<div style="color:#00000a;">Refer to<span style="color:#00000a;"><u>'' ''</span>[http://www.iussonline.co.za/norms-and-standards/procurement-and-operation/ IUSS:GNS Commissioning].</div>=== {{anchor|Toc339898747}} {{anchor|Toc428538863}} Post-occupancy evaluation ===
 
 
 
<div style="color:#00000a;">At one year from practical completion date a post-occupancy evaluation is recommended. All participants in the planning, design, construction and commissioning of the new facility will be required to participate in a half day on-site assessment on whether the project objectives where met. Feedback should be provided to the briefing authority and custodial agent to inform future building projects. </div>=== {{anchor|Toc339898748}} {{anchor|Toc428538864}} Operation and maintenance manual (O&M) ===
 
 
 
<div style="color:#00000a;">The consultant team is required to prepare an operations and maintenance manual for the hospital management and the custodial agent for presentation at practical completion. The requirements regarding the content of this document will be determined by consensus at a focus meeting with stakeholders to be convened by the principal agent during the construction phase of the project. As a recommendation these manuals may contain the following information:</div>
 
 
 
<div style="color:#00000a;">General information</div>* Description, make, model number of all equipment installed; and
 
* Contact details of suppliers and /or manufacturers etc.
 
 
 
 
 
 
 
<div style="color:#00000a;">Design information</div>* Design data sheets, containing all design and selection parameters, calculations, selection curves, etc.;
 
* Settings and values recorded during commissioning;
 
* Manufacturer's brochures and pamphlets;
 
* Maintenance data and schedules;
 
* The lapse of time between services and the description of the service required of each part, lubrication requirements, etc.;
 
* Schedule of spares; and
 
* A complete electrical equipment schedule.
 
 
 
 
 
 
 
<div style="color:#00000a;">These will include the description, make, model number, rating and other performance criteria, commissioned (default) settings, including all brochures, pamphlets and maintenance requirements. Names and contact details of supplier and manufacturer. </div>
 
 
 
<div style="color:#00000a;">Detail description of the operation of the electrical, mechanical and control systems including the design information, manufacturer’s brochures and pamphlets, settings and values recorded during commissioning, maintenance data and schedules. Complete sets of:</div>* "as built drawings";
 
* architectural work drawing;
 
* structural drawings;
 
* site works drawings;
 
* electrical reticulation drawings;
 
* mechanical installation drawings (i.e. all workshop and equipment layout drawings required for the manufacture and erection of the installations); and
 
* instrumentation/control drawings, such as schematic control diagrams and electronic/ electrical layout drawings.
 
 
 
= {{anchor|Toc428538865}} Operational narrative and user room requirements =
 
 
 
== {{anchor|Toc428538866}} Daily Schedule ==
 
 
 
{{anchor|Toc428539022}} Table '''5''': Sample: Current daily activities at long-term care facility
 
 
 
 
 
{| style="border-spacing:0;width:15.418cm;"
 
|- style="border:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;"
 
!| TIME
 
!| ACTIVITY
 
!| VENUE
 
!| {{anchor|Toc512093806}} {{anchor|Toc145404470}} {{anchor|Toc138662270}} DESIGN IMPLICATION
 
|- style="border:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;"
 
|| 5:00
 
|| Patients are woken up, urged to complete ablutions, and dress.
 
 
 
 
 
 
 
|| Wards
 
|| Each patient will have his own bedroom and adjoining bathroom.
 
 
 
Each bed will have an adjacent cupboard for clothes and possessions, and space for a bedside table.
 
 
 
 
 
 
 
|- style="border:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;"
 
||
 
|| Patients to produce sputum
 
|| Sputum booth
 
|| 1.Monthly sputum samples taken from relevant patients
 
|- style="border:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;"
 
|| 07:00
 
|| Nursing on day shift attend a handover meeting with night staff. This includes discussing problems, and planning activities for the day.
 
|| Nursing station
 
|| The nursing station is a general area where much clinical information is shared between staff and between disciplines and is a separate area in the ward. Secure cupboards (and a safe), under desk shelving and notice board space are required.
 
 
 
 
 
The location of the nursing station should allow for a clear view of most of the ward (through transparent barriers/windows) and it should be as centrally placed as possible. It should accommodate up to 6 people, and be accessible to the offices of the other members of the team. Lock-up cupboards, computer points, telephone; nurse call control panels should be operated from here. In this ward the nursing station should provide a central place in terms of staff efficiencies.
 
|- style="border:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;"
 
||
 
||
 
|| Matron’s office
 
|| While office should be separate from nursing station due to space requirements, easy communication and visible access should be available. Built-in office furniture with network points, plugs, telephone, filing space, lockable cupboards, enough space for at least three filing cabinets, appropriate storage and availability for ward stationery (some open and others locked), additional filing workspace, provision of pigeon holes for each for each patient file board, key cupboard.
 
|- style="border:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;"
 
|| 7:30
 
|| Daily injection given to patients
 
|| Procedure room
 
|| Nurses prepare injections according to medicine chart per individual patient.
 
 
 
The room requires a clinical hand-wash basin with clinical taps, lock-up cupboards, worktops, a patient couch, good lighting
 
|- style="border:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;"
 
|| 08:30
 
|| Breakfast and issuing of medication
 
|| Dining hall
 
|| This adjoins the kitchen and food delivery area. The nursing station should be nearby so that medication and general nursing tasks can be co-ordinated efficiently.
 
 
 
 
 
Food will be brought from a central kitchen located elsewhere in the hospital, but facilities for re-heating and to make hot beverages need to be available.
 
 
 
As patients mostly will proceed to the dining area from various other activity areas (sleeping, clinic, recreational, OT etc.) it will have to be in a central location, easily accessible from other patient areas.
 
 
 
Food must be delivered through a dedicated staff access point that allows for minimal patient contact.
 
 
 
 
 
 
 
|- style="border:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;"
 
|| 09:30 – 12:30
 
|| Therapeutic activities
 
||
 
||
 
|- style="border:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;"
 
||
 
|| Medical officer
 
 
 
The ward will have at least one medical officer.
 
|| Consulting room
 
 
 
 
 
 
 
|| These should have enough space for interviewing at least 3 people, as well as a desk, examining coach and x-ray box.
 
 
 
 
 
 
 
|- style="border:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;"
 
||
 
|| Occupational Therapy (OT)
 
|| Games room and lounge
 
|| During the day most patients will be allowed to attend the OT programme.
 
|- style="border:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;"
 
||
 
|| Psychologists & Social Workers
 
 
 
Interviews, psychotherapy and counselling with patients or their families (often together) occur daily, usually by appointment.
 
|| Counselling rooms
 
 
 
 
 
 
 
|| Each office will need built-in desks, computer and telephone points, and secure storage space.
 
|- style="border:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;"
 
|| 12:30 – 13:30
 
|| Lunch and using of medication
 
|| Dining hall
 
||
 
|- style="border:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;"
 
|| 13:30 – 14:00
 
|| Rest period
 
 
 
 
 
 
 
|| General rest areas
 
|| Some patients may retire to their rooms for a brief period, but most will be in general areas (lounge, restricted outdoor areas).
 
|- style="border:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;"
 
|| 14:00 – 16:30
 
|| Continuation of many morning activities
 
||
 
||
 
|- style="border:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;"
 
||
 
|| Sport and Recreation
 
|| Outdoor field
 
|| These patients will have easier access to outdoor areas.
 
 
 
 
 
 
 
|- style="border:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;"
 
||
 
||
 
|| Indoor group area
 
|| For use for group leisure.
 
|- style="border:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;"
 
||
 
||
 
|| Lounge
 
|| A comfortable furnished area containing a TV, board games (such as Kerem). This area has to be fully visible from the nursing station. Public telephones should be situated nearby. It may be helpful if this was close to the dining area.
 
|- style="border:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;"
 
||
 
|| Visiting
 
 
 
Families, friends (and occasionally others) are allowed to visit during two afternoons per week and each evening between 19:00 to 20:00
 
|| Visitors area
 
|| Although visiting times are regulated, families here have easier access to the patients, and there does not have to be a strict separation between patients and visitors.
 
|- style="border:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;"
 
|| 16:30 – 17:30
 
|| Supper
 
 
 
 
 
 
 
|| Dining area
 
|| Activities as for other mealtimes.
 
|- style="border:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;"
 
|| 17:30 – 19:00
 
|| Leisure time
 
|| Lounge
 
|| Access to enclosed courtyards allows patients to smoke and relax in the restricted outdoors before retiring to sleep.
 
|- style="border:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;"
 
|| 18:00
 
|| Nursing handover to night staff
 
 
 
 
 
 
 
|| Nursing station
 
|| The same as in the morning
 
|- style="border:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;"
 
|| 19:00 – 21:30
 
|| Preparation for sleep
 
 
 
Dispensing of night medication
 
|| Lounge and sleeping areas
 
|| Usually a snack and hot drink is given to patients. Many watch TV, others socialise or smoke (the latter activity will take place in designated courtyard areas that adjoin onto the ward, but without direct access to the general campus area).
 
|- style="border:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;"
 
|| 22:00 – 07:00
 
|| Night activities
 
 
 
 
 
 
 
|| Sleeping areas,
 
 
 
Nursing station
 
||  
 
 
|-
 
|-
|}
+
|RSE
== {{anchor|Toc339898750}} {{anchor|Toc428538867}} User room requirements  ==
+
|relative spectral effectiveness
 
 
<div style="color:#00000a;">Refer to<span style="color:#00000a;"><u>'' ''</span>[http://www.iussonline.co.za/norms-and-standards/cross-cutting-issues/ IUSS:GNS Generic room requirements] and [http://www.iussonline.co.za/norms-and-standards/clinical-services/ IUSS:GNS Primary healthcare].</div>=== {{anchor|Toc339898776}} {{anchor|Toc428538868}} {{anchor|Ref340989679}} {{anchor|Ref340989667}} TB outpatient services ===
 
 
 
<div style="color:#00000a;">Discharged patients need to be seen for follow-up visits in their communities or at facility-based outpatients department (OPD) usually every two months or so. Treatment for newly diagnosed and uncomplicated MDR TB and TB patients is typically initiated by clinical staff at OPD, and in accordance with policy decentralised management of TB treated in the community. Complicated cases and XDR patients may be admitted into the inpatient accommodation units through the OPD unless a dedicated admissions facility is provided.</div>
 
 
 
<div style="color:#00000a;">Paediatric patients may be seen for follow-up at paediatric wards or at the general OPD, depending on organisational structure. In small facilities the outpatient department can share clinical support services for inpatient care. Depending on patient loads and institutional preference, a dedicated OPD can be provided with similar facilities to clinical inpatient and support services.</div>
 
 
 
<div style="color:#00000a;">Care should be taken to avoid enclosed congregate settings (such as waiting areas) where possible. Where these are required, they should be regarded as high risk for airborne contamination.</div>
 
 
 
==== {{anchor|Toc339898778}} Consulting room ====
 
 
 
<div style="color:#00000a;">The consulting room is used by doctors and nursing staff for interviewing and examining patients, and to prescribe treatment for their condition. The doctor or certified nurse practitioner discusses the patients’ symptoms and records her case history. The patient sits on a chair during this stage and if a physical examination is necessary, lies on an examination couch. Once on the couch, the doctor or certified nurse practitioner examines the patient standing on the patients’ right hand side using medical supplies and instruments on an instrument trolley placed next to the head of the examination couch. The doctor or certified nurse practitioner may dispense medicine or instruct the patient to proceed to the treatment room for further medical treatment. Privacy is required during the consultation.</div>
 
 
 
<div style="color:#00000a;">One consulting room should be provided per 30 patient beds or part thereof. The consulting rooms should be standard size. The consulting rooms requires a clinical hand-wash basin with a soap dispenser and paper towel holder, a desk and chair, two patient chairs, an examination couch with a curtain screen, a place to hang clothing, examination lights, access to shared x-ray viewing facility, wall mounted blood pressure monitors, telephone and computer and network connectivity. The room must have a desk with cupboard for the nurse/clinicians’ own personal belongings and a cupboard for standard forms. A separate cupboard must be in this room to provide for equipment and medicine necessary for procedures. Each room must be provided with a pinning board 900 x 900. An examination couch with an exam lamp is to be provided. Provide space next to the couch for a medicine and instrument trolley. Curtain tracks should be provided around the examination couch for visual privacy for patient being examined, if appropriate. </div>
 
 
 
==== {{anchor|Toc339898779}} Counselling room  ====
 
 
 
<div style="color:#00000a;">The counselling rooms must be the same size as the consulting rooms and correctly handed for use as consulting rooms should the need arise. The counselling rooms require a desk and chair, with telephone, shelves, IT and a network point, clinical hand-wash basin, soap dispenser and two easy chairs for counselling purposes.</div>
 
 
 
==== {{anchor|Toc339898780}} Diagnostic radiology services  ====
 
 
 
<div style="color:#00000a;">Diagnostic radiology services (chest x-rays) of all patients may be routinely required for diagnosis, during treatment and in follow-up. Baseline x-rays of all the staff and annually as part of the hospital’s infection prevention and control programme. Diagnostic radiology should be provided on-site or at a nearby referral facility.{{anchor|Toc339898781}}  Refer to [http://www.iussonline.co.za/norms-and-standards/clinical-services/ IUSS:GNS Diagnostic radiology]. Mobile x-ray services are a suitable alternative where fixed radiology equipment is not available and if not provided at a nearby referral facility.</div>
 
 
 
==== Sputum collection and induction ====
 
 
 
<div style="color:#00000a;">Sputum collection is a process whereby a specimen of sputum, liberated from the lungs, is collected. In many adults this process is readily achieved, however, in younger children and adults who cannot liberate sputum spontaneously, sputum induction is performed. Sputum induction is a process whereby sputum is liberated from the lungs using sterile water or hypertonic saline to irritate the airway, which promotes coughing, to produce a sputum specimen (Francis J Curry National Tuberculosis Centre, 1999). </div>
 
 
 
<div style="color:#00000a;">It is advised that sputum collection be conducted in an area which provides privacy, for patient dignity, but also conducted under observation of a clinician, should the patient go require support and in order to ensure sample integrity (that the sputum is from the individual). As sputum collection is a high risk procedure, good administrative and environmental control measures for the designated sputum collection area is essential for the safety of healthcare workers and patients. </div>
 
 
 
<div style="color:#00000a;">The functional area for sputum collection should comprise a covered area, clinical hand-wash basin, soap dispenser and counter top and, if sputum induction is performed in the same space, a splash-proof power point for a nebulizer.</div>
 
 
 
<div style="color:#00000a;">Sputum collection should be performed in a designated area. At naturally ventilated primary healthcare clinics and community healthcare centres, or any other single-storey naturally ventilated healthcare establishment, sputum collection should preferably be performed in a designated '''outside''' area. The “sputum booth” should be positioned within view of the nurse’s station, but should be at least four meters away from the nearest building. '''Sputum should not be collected in patient toilets or consulting/counselling rooms'''. Details of an outdoor sputum booth are available in ANNEXURE 2..</div>
 
 
 
<div style="color:#00000a;">In a mechanically ventilated healthcare facility, rooms having characteristics of airborne infection isolation rooms (AIIR) can be used for sputum collection. These rooms should be ventilated with 80 L per second per person of outside air or the requirements of the National Building Regulations, whichever is greater (SANS 10400 Part O, Table 2, as amended) and are to be maintained at negative pressure relative to the adjacent space, with a pressure differential in the order of -5 Pa. These rooms should preferably be served by full fresh air systems, or in the case of recirculating systems, the exhaust air should be HEPA filtered (EN1822 H13). </div>
 
 
 
<div style="color:#00000a;">Special, purpose-built sputum booths, also referred to as Local Exhaust Ventilation (LEV) devices can also be used for sputum collection. These devices may be portable, where they are beneficial in multi-storey healthcare facilities, where a single sputum booth can be used for the whole facility. Details of a mechanically ventilated sputum booth are available in ANNEXURE 1.. </div>
 
 
 
<div style="color:#00000a;">A patient is seated in a chamber where he/she produces a sputum specimen. Fresh air, preferably filtered, is supplied overhead, and exhausted from the chamber at low level. The exhaust air is passed through an H13 HEPA filter to remove the airborne contaminant, and is passed back to the room. To ensure the chamber is safe for the next patient, a time-lag between one patient and the next should be calculated and stipulated, based on the validated clean-up rate of the sputum booth (SANS 14644-3). Downflow booths are preferred as this provides the most efficient contaminant removal. For reliable operation, downflow velocities of 0.35-0.45 m/s should be maintained in the booth with the door closed.</div>
 
 
 
<div style="text-align:center;">[[Image:|top]]</div>
 
 
 
{{anchor|Toc428539006}} Figure '''9''': An illustration of local exhaust ventilation device (sputum booth) (source; CSIR 2014)
 
 
 
<div style="color:#00000a;">To ensure that AIIRs and LEVs operate as designed, a good maintenance plan is essential. This involves maintenance of pre-filters and HEPA filters, general ventilation maintenance, and standard daily checks to ensure downward and inward airflow is maintained. These checks are simple, and may be performed with incense sticks or smoke /vapour generating ventilation tubes. Maintenance is critical in LEVs, as failure to maintain the device operating as designed could result in contaminated air being passed into occupied zones. Since ducted UV lights can fail catastrophically without any indication, it is not recommended that the HEPA filters considered for LEV systems be substituted with only in-duct UV lights.</div>
 
 
 
<div style="color:#00000a;">Where sputum collection or induction is performed, signage informing patients about the associated procedure should be considered. This should include:</div># Instructions inside the sputum collection booth about the sputum collection procedure.
 
# Time-lags between patients producing a sputum specimen in the same booth.
 
# Reminders to healthcare workers to wear respirators in the sputum collection area.
 
 
 
 
 
 
 
==== {{anchor|Toc339898782}} Pharmacy ====
 
 
 
<div style="color:#00000a;">Pharmacist and assistants pharmacists are required to prepare and dispense medication, and manage medicine stock for inpatient and outpatients services. Refer to [http://www.iussonline.co.za/norms-and-standards/clinical-services/ IUSS:GNS Pharmacy]. The pharmacy may be responsible for community outreach programmes for community-based care and may be responsible for distributing medication to downstream referral facilities. </div>
 
 
 
==== {{anchor|Toc339898784}} Laboratory services ====
 
 
 
<div style="color:#00000a;">Refer to [http://www.iussonline.co.za/norms-and-standards/clinical-services/ IUSS:GNS Clinical and specialised diagnostic laboratory guidelines]</div>=== {{anchor|Toc339898751}} {{anchor|Toc428538869}} Patient accommodation ===
 
 
 
{{anchor|Toc428539023}} Table 6: Patient accommodation cohorts for short-term accommodation
 
 
 
 
 
{| style="border-spacing:0;width:15.443cm;"
 
|- style="background-color:#e6e6e6;border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;"
 
!| Service type
 
!| Accommodation
 
!| Occupancy
 
!| Notes
 
 
|-
 
|-
| style="border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | Paediatric
+
|SAHNORMS
 
+
|South African hospital norms
(unisex)
 
| style="border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
 
| style="border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
 
| style="border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
 
 
|-
 
|-
| style="border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | TB and MDR TB (female)
+
|SDP
| style="border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
+
|site development plan
| style="border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
 
| style="border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
 
 
|-
 
|-
| style="border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | TB and MDR TB (male)
+
|TB
| style="border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
+
|tuberculosis
| style="border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
 
| style="border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
 
 
|-
 
|-
| style="border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | XDR (male/unisex)
+
|TLV
| style="border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
+
|threshold  limit values
| style="border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
 
| style="border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
 
 
|-
 
|-
| style="border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | XDR (female/unisex)
+
|UVA
| style="border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
+
|ultraviolet “A” (wavelength  400 nm–315 nm)
| style="border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
 
| style="border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
 
 
|-
 
|-
| style="border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | XDR paediatrics (unisex)
+
|UVB
| style="border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
+
|ultraviolet “B” (wavelength  315 nm–280 nm)
| style="border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
 
| style="border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
 
 
|-
 
|-
| style="border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | Former correctional services/(unisex isolation)
+
|UVC
| style="border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
+
|ultraviolet “C” (wavelength  280 nm–100 nm)
| style="border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
 
| style="border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
 
 
|-
 
|-
| style="border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" | Psychiatric TB patients/ (unisex isolation)
+
|UVGI
| style="border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
+
|ultraviolet  germicidal irradiation
| style="border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
 
| style="border:0.5pt solid #00000a;padding-top:0cm;padding-bottom:0cm;padding-left:0.199cm;padding-right:0.191cm;" |
 
 
|-
 
|-
|}
+
|WHO
=== {{anchor|Toc339898754}} {{anchor|Toc428538870}} Clinical support services for inpatient care ===
+
|World Health Organisation
 
 
<div style="color:#00000a;">Nursing support is to be located centrally to serve several bed functional units (for sub-acute services) or dedicated per unit for acute services to ensure supervision and control of the department. Alternatively if functional units are physically separate, these nursing support facilities are to be duplicated. In addition to the inpatient facilities described here, TB patients will need access to facilities described in above either as a dedicated facility or where appropriate, shared with outpatients.</div>
 
 
 
==== {{anchor|Toc339898755}} Duty station/ nurse’s station ====
 
 
 
<div style="color:#00000a;">The duty station should be provided with a built-in worktop (desk height), a telephone, computer and network points, cupboards and a clinical hand-wash basin.</div>
 
 
 
==== {{anchor|Toc339898756}} Clean linen area  ====
 
 
 
<div style="color:#00000a;">A locked linen store with slatted racks to support the airing and safe storage of clean linen should be provided. </div>
 
 
 
==== {{anchor|Toc339898757}} Dirty utility room ====
 
 
 
<div style="color:#00000a;">The dirty linen store near the sluice and a dirty utility service door with direct access to waste collection points for easy removal and disposal. Space for separate refuse bins for paper, medical waste and general waste.</div>
 
 
 
==== {{anchor|Toc339898758}} Sluice room ====
 
 
 
<div style="color:#00000a;">A standard sluice room with bedpan, urinal racks, storage cupboards and a worktop should be provided. </div>
 
 
 
==== {{anchor|Toc339898783}} Surgery services (operating theatre) ====
 
 
 
<div style="color:#00000a;">Surgical services are commonly required by TB patients so should be readily available in nearby referral facilities or for stand-alone TB-services minor procedures room may be provided on site. Support infrastructure such as CSSD is required in accordance with.</div>
 
 
 
==== {{anchor|Toc339898760}} Staff facilities ====
 
 
 
<div style="color:#00000a;">A cluster of staff facilities should be provided for exclusive use by staff. These include a lounge/tea area/room; a kitchen area/room; staff locker area/room and staff ablutions. Staff facilities should be located remotely from patient areas to allow for:</div>* airborne infection control
 
* a “break-away” venue to rest following patient contact periods away from the demands of the work environment
 
 
 
 
 
 
 
<div style="color:#00000a;">Staff facilities should be readily accessible to the duty areas. The purpose of this kitchen is to prepare beverages for members of the staff at tea breaks and lunch breaks, and to provide a place for washing and storing crockery and stocks of tea, coffee, sugar, milk and cleaning materials under lock and key. The kitchen area/room should be equipped with a sink, lock-up cupboards, bar fridge, and an instant boiling water dispenser (“Hydroboil” or similar approved). </div>
 
 
 
<div style="color:#00000a;">Staff lockers should be provided for each non-central service member of staff for storing personal belongings.</div>
 
 
 
==== {{anchor|Toc339898761}} Procedure room ====
 
 
 
<div style="color:#00000a;">The procedure room can be provided for the taking of blood and other specimens (except sputum). Clinical hand-wash basin with elbow taps to be provided. Work tops at standing height. Lock-up cupboards and a patient couch with good lighting. The electrocardiogram and the emergency trolley can be stored in this room.</div>
 
 
 
==== {{anchor|Toc339898762}} Store rooms ====
 
 
 
<div style="color:#00000a;">Store rooms for provisions and consumables, surgical stores, equipment (such as wheelchairs, crutches and health technology) should be provided. These stores must be ventilated and fitted with shelves selected for appropriate storage of goods. Where electrical equipment is stored, electrical socket points may be required to ensure battery charging.</div>
 
 
 
==== {{anchor|Toc339898763}} Medical store ====
 
 
 
<div style="color:#00000a;">A lockable room for store for the safekeeping of ward stock and scheduled drugs, infusions etc. is required. This must room must be cool (as close to 18 °C with passive means as possible), dry and dark (that is its electrical lighting should be independently controlled). It should be provided with a cabinet, worktop and adjustable shelving.</div>
 
 
 
==== {{anchor|Toc339898764}} Matron’s office ====
 
 
 
<div style="color:#00000a;">The office should be a standard office with the normal requirements (desk, telephone, computer and network points, cupboards and a clinical hand-wash basin).</div>
 
 
 
==== Mortuary ====
 
 
 
<div style="color:#00000a;">If a nearby referral healthcare establishment is available, a bier room may suffice. Alternatively a small mortuary may be provided. Refer to'' ''[http://www.iussonline.co.za/norms-and-standards/support-services/ IUSS:GNS Mortuary][http://www.iussonline.co.za/norms-and-standards/support-services/ .]</div>=== {{anchor|Toc339898765}} {{anchor|Toc428538871}} Patient Support ===
 
 
 
<div style="color:#00000a;">Care should be taken to avoid enclosed congregate settings (such as waiting areas) where possible. Where these are required, they should be regarded as high risk for airborne contamination.</div>
 
 
 
==== {{anchor|Toc339898766}} Visitor’s area ====
 
 
 
<div style="color:#00000a;">This area must be separate from the ward, should have a meeting room for several families, veranda and garden. Seating and tables must be built in. The visitor facility can be shared between male and female patients. Access control must be provided for visitors.</div>
 
 
 
==== {{anchor|Toc339898767}} Visitor’s ablution ====
 
 
 
<div style="color:#00000a;">To be attached to visitor’s area. At least one unisex accessible toilet is to be provided.</div>
 
 
 
==== {{anchor|Toc339898768}} Dining facilities ====
 
 
 
<div style="color:#00000a;">In acute settings, patients may be served meals in bed. A hall to accommodate patients is recommended in long-term care facilities. This room should provide tables and chairs for all patients, a small kitchenette, fridge, microwave, stove and an instant boiling water dispenser (“Hydroboil” or similar approved). These areas should have ample access to the outside. This room can be interlinked with games and TV rooms (if provided).</div>
 
 
 
==== {{anchor|Toc339898769}} Business centre ====
 
 
 
<div style="color:#00000a;">This room should provide access to computers with Internet connectivity, space and chairs.</div>
 
 
 
==== {{anchor|Toc339898770}} Resource centre/ media room/ library ====
 
 
 
<div style="color:#00000a;">This room should be like a small lounge providing space for books easy chairs and big table and chairs for occupational therapy activities.</div>
 
 
 
==== {{anchor|Toc339898771}} Games room ====
 
 
 
<div style="color:#00000a;">This room should provide space for e.g. snooker, table tennis, and board games. This can be interlinked with other patient support areas (e.g. dining and TV room).</div>
 
 
 
==== {{anchor|Toc339898772}} TV room ====
 
 
 
<div style="color:#00000a;">Separate from dining and games room, this room should have a TV, DVD and lounge suites. To be interlinked with Games and Dining Rooms.</div>
 
 
 
==== {{anchor|Toc339898773}} Kitchenette ====
 
 
 
<div style="color:#00000a;">In addition to central kitchen services, an area may be provided in which patients can prepare their own meals and wash dishes. This area should be provided with a stove/oven, microwave, fridge, an instant boiling water dispenser (“Hydroboil” or similar approved), double sink, dishwasher. Lock-up cupboards and counter top working areas. Lock-up cupboards will provide store space for crockery and consumables.</div>
 
 
 
==== {{anchor|Toc339898774}} Patient laundry ====
 
 
 
<div style="color:#00000a;">In addition to the central laundry services, provision may be made for a laundry for patient use only. This room should provide a washing machine and washing trough, and have direct access to a drying yard.</div>
 
 
 
==== {{anchor|Toc339898775}} Other recreation ====
 
 
 
<div style="color:#00000a;">Patients are encouraged to spend much time outdoors during convalescence. Consideration should be made to providing pleasant garden and planting areas, possible vegetable gardens, and permanent weather-proof seats. An outdoor covered patio with braai facilities connected to dining area should be provided. An outdoor uncovered patio connected to the games/ TV room area may be provided. Storm-water management around the proposed building and affected grounds should be considered. </div>=== {{anchor|Toc339898785}} {{anchor|Toc428538872}} Allied healthcare services ===
 
 
 
<div style="color:#00000a;">National policy recognises the importance of have a holistic psycho-social approach to patient care. Therefor provision should be made for allied health services preferably by practitioners on site, visiting practitioners or, alternatively at a nearby referral facility. Refer to [http://www.iussonline.co.za/norms-and-standards/clinical-services/ IUSS:GNS Adult rehabilitation services]<span style="color:#00000a;">'' ''</u></span>for further guidance.</div>
 
 
 
==== {{anchor|Toc339898786}} Occupational therapy ====
 
 
 
<div style="color:#00000a;">Occupational therapists (OTs) and assistant OTs deliver a service to TB patients. It may be challenging to motivate patients especially when they are sick and are treated with many drugs, which have severe side effects. OT aims to increase skills by training in several crafts, cooking classes etc. </div>
 
 
 
==== {{anchor|Toc339898787}} Audiology ====
 
 
 
<div style="color:#00000a;">Audiology services are required as a common side-effect of TB treatment is hearing loss. A baseline hearing test ought to be performed upon patient admission and followed up with regular tests to determine the effects of the drugs on hearing. If hearing is affected, drugs regimens can be adapted. Sharing of audiology equipment with referral facilities may be problematic as conventionally audio booths are enclosed to control noise and may be inadequately adapted for airborne infection risk. It is highly recommended that dedicated mobile audiometers which do not require booths (see KUDUwave, or equivalent) are secured for TB facilities. These can be supported by telemedicine so that reduced on-site involvement of audiologist is possible. Where the use of mobile audiometers is not possible or appropriate, it is recommended that the audiology test booth used be ventilated and flushed with fresh air for 20 minutes between uses. </div>
 
 
 
==== {{anchor|Toc339898788}} Physiotherapy ====
 
 
 
<div style="color:#00000a;">Physiotherapists and assistant physiotherapists deliver services to patients as required. This typically includes lung function tests, mobility exercises and assistance in sputum production where patients have difficulty. </div>
 
 
 
==== {{anchor|Toc339898789}} Clinical psychology ====
 
 
 
<div style="color:#00000a;">Clinical psychologist sees patients on an individual basis, have climate groups and supervise the six lay counsellors in their work. </div>
 
 
 
==== {{anchor|Toc339898790}} Social services ====
 
 
 
<div style="color:#00000a;">Social workers assist patients with social and economic issues which include the obtaining of grants, identity documents and family counselling. </div>=== {{anchor|Toc339898791}} {{anchor|Toc428538873}} Support services ===
 
 
 
==== {{anchor|Toc339898792}} School ====
 
 
 
<div style="color:#00000a;">Provision of school services may be negotiated with the relevant Provincial Department of Basic Education. Separate teaching and learning facilities may be provided.</div>
 
 
 
==== {{anchor|Toc339898793}} Kitchen ====
 
 
 
<div style="color:#00000a;">Kitchen services may be outsourced or prepared on site. Refer to ''IUSS: {{anchor|Toc339898794}} GNS Catering Services''</div>
 
 
 
==== Laundry ====
 
 
 
<div style="color:#00000a;">General laundry services can be provided on site, off site or can be shared (where co-located). Refer to [http://www.iussonline.co.za/norms-and-standards/support-services/ IUSS:GNS Laundry and linen]. In addition to general laundry services some TB institutions encourage patients to wash their own clothing. Where this is the case, hand washing, washing machine, drying machines and/or drying yards should be provided.</div>=== {{anchor|Toc339898796}} {{anchor|Toc339898795}} {{anchor|Toc428538874}} Facilities management ===
 
 
 
==== Waste management ====
 
 
 
<div style="color:#00000a;">On-site disposal, storage and collection of waste need consideration. Refer to [http://www.iussonline.co.za/norms-and-standards/support-services/ IUSS:GNS Waste disposal].</div>
 
 
 
==== Maintenance services - building  ====
 
 
 
<div style="color:#00000a;">Building maintenance services for both planned and unplanned maintenance (for example works foreman, electrician, painter, plumber, and carpenter) will be needed to provide service on site either on a full-time, part time or visiting basis depending on the size of the facility and institutional arrangement. Maintenance workshops and storage space may be required for this.</div>
 
 
 
==== Clinical engineering ====
 
 
 
 
 
 
 
==== Gardening services  ====
 
 
 
<div style="color:#00000a;">Gardening and grounds maintenance services may be provided on-site or outsourced. It is recommended that planting and landscaping is arranged near to building openings to discourage loitering nearby for infection prevention and control.</div>
 
 
 
==== Cleaning services  ====
 
 
 
<div style="color:#00000a;">Cleaning services may be outsourced. However storage of cleaning equipment, materials and staff facilities for cleaners is required to be provided on site.</div>=== {{anchor|Toc339898802}} {{anchor|Toc339898799}} {{anchor|Toc428538875}} Administration ===
 
 
 
<span style="color:#00000a;">Office accommodation is to be provided in accordance with the following reference: Department of Public Works, 2005.</span> <span style="color:#00000a;">''Space planning norms and standards for office accommodation used by organs of state.''</span> <span style="color:#00000a;">(Government notice 1665). Cape Town South Africa: Government Gazette.</span>=== {{anchor|Toc428538876}} Other ===
 
 
 
==== {{anchor|Toc339898800}} Co-located institutions/ activities ====
 
 
 
<div style="color:#00000a;">Medical researchers, NGOs and other organisations may provide services to and be co-located with the facility.</div>
 
 
 
==== {{anchor|Toc339898801}} Overnight stay ====
 
 
 
<div style="color:#00000a;">Family member overnight accommodation is not routinely provided but may be desirable, particularly in rural settings. </div>
 
 
 
==== {{anchor|Toc339898797}} Commercial support (tuck shop, ATM) ====
 
 
 
<div style="color:#00000a;">Tuck shop facilities and banking services may be provided - if viable - on site for staff and patients. This is highly recommended as otherwise infectious patients leave the site in order to attend to these requirements. </div>
 
 
 
==== {{anchor|Toc339898798}} Staff accommodation ====
 
 
 
<div style="color:#00000a;">Staff accommodation for nursing and or/clinical staff may be required by provincial policy, and may be recommended in most cases, especially in rural settings. Separation on site of staff quarters and patient facilities on site should allow for staff safety and privacy, whilst remaining within comfortable walking distance of the patient facilities. Refer to [http://www.iussonline.co.za/norms-and-standards/support-services/ IUSS:GNS Health facility residential]</div>= {{anchor|Toc428538877}} Case studies =
 
 
 
== {{anchor|Toc428538878}} List of case studies ==
 
 
 
* Areas comparison of long-term XDR TB care facilities at:
 
** Bongani Hospital, Mpumalanga
 
** Tshepong Hospital, North West
 
** Modimolle Hospital, Limpopo
 
* Modimolle TB Hospital
 
** site layout
 
** patient rooms
 
** natural ventilation design
 
* Catherine Booth TB Hospital, KwaZulu-Natal
 
** Roof ventilation and windows concept drawings
 
** Two-bed patient rooms plan
 
 
 
 
 
 
 
<div style="color:#00000a;">{{clear}}
 
[[Image:|none]]Analysis courtesy Munnik Visser, HDG, Jacques Vlaming, and Consultium Architects. </div>
 
 
 
{{clear}}
 
[[Image:|none]]
 
 
 
<div style="color:#00000a;"></div>
 
 
 
 
 
 
 
 
 
{{clear}}
 
[[Image:|none]]{{clear}}
 
[[Image:|none]]
 
 
 
 
 
<div style="color:#00000a;">[[Image:|top]]</div>
 
 
 
= {{anchor|Toc428538879}} BIBLIOGRAPHY =
 
 
 
<div style="color:#00000a;">American Society of Heating, Refrigerating and Air-Conditioning Engineers (ASHRAE), 2004. <span style="color:#00000a;">''ANSI/ASHRAE standard 55-2004 Thermal environmental conditions for human occupancy. ''</span>Atlanta USA: ASHRAE.</div>
 
 
 
<div style="color:#00000a;">American Society of Heating, Refrigerating and Air-Conditioning Engineers (ASHRAE), 1999. <span style="color:#00000a;">''ANSI/ASHRAE standard 52.2-1999 Method of testing general ventilation air cleaning devices for removal efficiency by particle size. ''</span>Atlanta USA: ASHRAE.</div>
 
 
 
<div style="color:#00000a;">American Society of Heating, Refrigerating and Air-Conditioning Engineers (ASHRAE), 1989. <span style="color:#00000a;">''ASHRAE standard 62 Ventilation for acceptable indoor air quality.''</span> Atlanta USA: ASHRAE.</div>
 
 
 
<div style="color:#00000a;">American Society of Heating, Refrigerating and Air-Conditioning Engineers (ASHRAE), 2003. <span style="color:#00000a;">''HVAC design manual for hospitals and clinics.''</span> Atlanta USA: ASHRAE.</div>
 
 
 
<div style="color:#00000a;">American Society of Heating, Refrigerating and Air-Conditioning Engineers (ASHRAE), 2009. <span style="color:#00000a;">''ANSI/ASHRAE/ASHE standard 170-2008 ventilation of health care facilities</span>.'' Atlanta USA: ASHRAE.</div>
 
 
 
<div style="color:#00000a;">Basu, S., Andrew ,J.R., Poolman, E.M., Gandhi, N.R., Shah, N.S., Moll, A., Moodley, P., Galvani, A.P. and Friedland, G.H, 2007. Prevention of nosocomial transmission of extensively drug-resistant tuberculosis in rural South African district hospitals: an epidemiological modelling study. <span style="color:#00000a;">''Lancet,''</span> 370(9597), pp. 1500 - 1507. </div>
 
 
 
<div style="color:#00000a;">Behrman, A., Buchta, W.G., Budnick, L.D., Hodgson, M.J., Raymond, L.W., Russi, M., Spillmann, S.J. and Swift, M.D., 2013. Protecting health care workers from tuberculosis. <span style="color:#00000a;">''Journal of Occupational and Environmental Medicine,''</span> 55(8), pp.985-988.</div>
 
 
 
<div style="color:#00000a;">British Standards Institution (BSI), 2009. <span style="color:#00000a;">''EN 1822-1:2009 High efficiency air filters (EPA, HEPA and ULPA) Classification, performance testing, marking''</span><span style="color:#333333;">.</span> London: BSI.</div>
 
 
 
<div style="color:#00000a;">British Standards Institution (BSI), 2009. <span style="color:#00000a;">''EN 1822-2:2009 High efficiency air filters (EPA, HEPA and ULPA): Aerosol production, measuring equipment, particle counting statistics.''</span> London: BSI.</div>
 
 
 
<div style="color:#00000a;">British Standards Institution (BSI), 2009. <span style="color:#00000a;">''EN 1822-3:2009 High efficiency air filters (EPA, HEPA and ULPA) Testing flat sheet filter media.''</span> London: BSI.</div>
 
 
 
<div style="color:#00000a;">British Standards Institution (BSI), 2009. <span style="color:#00000a;">''EN 1822-4:2009 High efficiency air filters (EPA, HEPA and ULPA): Determining leakage of filter elements (scan method).''</span> London: BSI.</div>
 
 
 
<div style="color:#00000a;"><span style="color:#00000a;">Brown G.Z. and Huang L. Natural Ventilation in Northwest Buildings [Journal] // ASHRAE Journal 48(1). - 2006. - 48. - pp. 47-52.</span></div>
 
 
 
<div style="color:#00000a;">Brown, G.Z. and Huang, L. 2006. Natural ventilation in Northwest buildings. <span style="color:#00000a;">''ASHRAE Journal</span>, ''48, pp. 47-52.</div>
 
 
 
<span style="color:#00000a;">Carroll, K.B., Secombe, C.J. and Pepys, J., 1976. Asthma due to non-occupational exposure to toluene (tolylene) di-isocyanate.</span> <span style="color:#00000a;">''Clinical Allergy,''</span> <span style="color:#00000a;">6(2), pp.99–104.</span>
 
 
 
<div style="color:#00000a;">Centers for Disease Control and Prevention (CDC), 1990. <span style="color:#00000a;">''Guidelines for preventing the transmission of mycobacterium tuberculosis in health-care Settings, with special focus on HIV-related issues.''</span> (Morbidity and Mortality Weekly Report (MMWR) Vol. 39 No. RR-17). Atlanta, GA: CDC. </div>
 
 
 
<div style="color:#00000a;">Centers for Disease Control and Prevention (CDC), 2005. <span style="color:#00000a;">''Guidelines for preventing the transmission of mycobacterium tuberculosis in health-care settings</span>. ''(Morbidity and Mortality Weekly Report (MMWR) Vol. 54 No. RR-17). Atlanta, GA: CDC.</div>
 
 
 
<div style="color:#00000a;">Centres for Disease Control and Prevention (CDC), 2013. <span style="color:#00000a;">''Fact sheet: TB elimination: Extensively drug-resistant tuberculosis (XDR TB).''</span> [online] Available at: [http://www.cdc.gov/tb/publications/factsheets/drtb/xdrtb.pdf http://www.cdc.gov/tb/publications/factsheets/drtb/xdrtb.pdf] [Accessed 21 January 2014].</div>
 
 
 
<div style="color:#00000a;">Chartered Institution of Building Services Engineers (CIBSE), 1997. <span style="color:#00000a;">''CIBSE applications manual AM10 natural ventilation in non-domestic buildings.''</span> <span style="color:#00000a;">London: CIBSE.</span></div>
 
 
 
<div style="color:#00000a;">Chartered Institution of Building Services Engineers (CIBSE), 2000.'' <span style="color:#00000a;">CIBSE applications manual AM13 mixed mode ventilation.''</span> London: CIBSE.</div>
 
 
 
<div style="color:#00000a;">Culver, D.A, Gordon, S.M. and Mehta, A.C., 2003. Infection control in the bronchoscopy suite: a review of outbreaks and guidelines for prevention. <span style="color:#00000a;">''American Journal of Respiratory and Critical Care Medicine</span><nowiki>;</nowiki>'' 167(8), pp.1050-6.</div>
 
 
 
<div style="color:#00000a;">Department of Health and Human Services (DHHS) and National Institute for Occupational Safety and Health (NIOSH), 2009. <span style="color:#00000a;">''Environmental control for tuberculosis: Basic upper-room ultraviolet germicidal irradiation guidelines for healthcare settings</span>.'' <span style="color:#00000a;">Atlanta, GA: DHHS.</span></div>
 
 
 
<div style="color:#00000a;">Department of Public Works, 2005. <span style="color:#00000a;">''Space planning norms and standards for office accommodation used by organs of state.''</span> <span style="color:#00000a;">(Government notice 1665). Cape Town South Africa: Government Gazette.</span></div>
 
 
 
<div style="color:#00000a;">Dugger, C.W., 2008. In South Africa, TB patients behind barbed wire. <span style="color:#00000a;">''The New York Times</span>, ''[online] 24 March. Available at: [http://www.nytimes.com/2008/03/24/world/africa/24iht-saf.4.11377837.html?pagewanted=all&_r=0 http://www.nytimes.com/2008/03/24/world/africa/24iht-saf.4.11377837.html?pagewanted=all&_r=0] [Accessed 26 March 2014]. </div>
 
 
 
<div style="color:#00000a;">First, M.W., Nardell, E.A., Chaisson, W. and Riley, R., 1999. Guidelines for the application of upper-room ultraviolet germicidal irradiation for the prevention of airborne contagion- part I: Basic principles. <span style="color:#00000a;">''ASHRAE Transactions''</span> <span style="color:#00000a;">105(1).</span></div>
 
 
 
<div style="color:#00000a;">First, M.W., Nardell, E.A., Chaisson, W. and Riley, R., 1999b. Guidelines for the application of upper-room ultraviolet germicidal irradiation for the prevention of airborne contagion- part II: Design and operation guidance. <span style="color:#00000a;">''ASHRAE Transactions''</span> 105(1).</div>
 
 
 
<div style="color:#00000a;">Gandhi, N.R., Shah, N.S., Andrews, J.R., Vella, V., Moll, A.P., Scott, M., Weissman, D., Marra, C., Lalloo, U.G., and Friedland, G.H. and Tugela Ferry Care and Research Collaboration, 2010. HIV coinfection in multidrug and extensively drug-resistant tuberculosis results in high early mortality. <span style="color:#00000a;">''American Journal of Respiratory and Critical Care Medicine,''</span> 181(1),pp.80-86.</div>
 
 
 
<div style="color:#00000a;">Hamilton, K. and Yau, J., 2004. <span style="color:#00000a;">''The global tug-of-war for health care workers.''</span> Washington USA: Migration Policy Institute. Available at: [http://www.migrationinformation.org/feature/display.cfm?ID=271 http://www.migrationinformation.org/feature/display.cfm?ID=271] [Accessed 4 February 2014].</div>
 
 
 
<div style="color:#00000a;">Hinds, W.C., 1999. <span style="color:#00000a;">''Aerosol technology: Properties, behaviour and measurement of airborne particles</span>.''2nd ed. New York: John Wiley & Sons.</div>
 
 
 
<div style="color:#00000a;">International Organisation for Standardisation (ISO), 2005. <span style="color:#00000a;">''ISO 14644-3 Cleanrooms and associated controlled environments - Part 3: Test methods.''</span> Switzerland: ISO.</div>
 
 
 
<div style="color:#00000a;">International Radiation Protection Association (IRPA), 1985. Guidelines on Limits of Exposure to Ultraviolet Radiation of Wavelengths between 180 nm and 400 nm (Incoherent Optical Radiation). <span style="color:#00000a;">''Health Physics''</span>, 39, pp. 331–340. </div>
 
 
 
<div style="color:#00000a;">Joshi, R., Reingold, A.L., Menzies, D., and Pai, M., 2006. Tuberculosis among health-care workers in low- and middle-income countries: A systematic review. <span style="color:#00000a;">''PLoS Medicine''</span><span style="color:#00000a;">, 3(12).</span></div>
 
 
 
<div style="color:#00000a;"><span style="color:#00000a;">Ko Gwangpyo, First Melvin W and Burge Harriette A The Characterization of Upper-Room Ultraviolet Germicidal Irradiation in Inactivating Airborne Microorganisms [Journal] // Environmental Health Perspectives - Harvard School of Public Health. - Boston : EBSCO, January 2002. - 1 : Vol. 110. - pp. 95-101. - Harvard School of Public Health.</span></div>
 
 
 
<span style="color:#00000a;">Ko, G., First, M.W. and Burge, H.A., 2002. The characterization of upper-room ultraviolet germicidal irradiation in inactivating airborne microorganisms.</span> <span style="color:#00000a;">''Environmental Health Perspectives</span>, ''<span style="color:#00000a;">110(1), pp.95- 101.</span>
 
 
 
<div style="color:#00000a;">Lawn, S.D., Bekker, L.G., Middelkoop, K., Myer, L. and Wood, R., 2006. [http://scholar.google.co.za/citations?view_op=view_citation&hl=en&user=HcJ-_gYAAAAJ&citation_for_view=HcJ-_gYAAAAJ:u5HHmVD_uO8C Impact of HIV infection on the epidemiology of tuberculosis in a peri-urban community in South Africa: the need for age-specific interventions]. <span style="color:#00000a;">''Clinical Infectious Diseases,''</span> 42(7), pp.1040-1047.</div>
 
 
 
<div style="color:#00000a;">London, L., 2009. Confinement for extensively drug-resistant tuberculosis: balancing protection of health systems, individual rights and the public’s health. <span style="color:#00000a;">''International Journal of Tuberculosis and Lung Disease, ''</span>13(10), pp.1200-9.</div>
 
 
 
<div style="color:#00000a;">Menzies, D., Joshi, R., Pai, M., 2007. Risk of tuberculosis infection and disease associated with work in health care settings. <span style="color:#00000a;">''The International Journal of Tuberculosis and Lung Disease''</span>. 11(6), pp.593-605.</div>
 
 
 
<div style="color:#00000a;">Molhave, L., 1987. The sick buildings-A subpopulation among the problem buildings. In: Seifert, B.; Esdorn, H.; Fischer, M.; Rueden, H.; Wegner, J., eds. Indoor Air ’87, <span style="color:#00000a;">''4th international conference on indoor air quality and climate.''</span> West Berlin Germany, August 1987. Berlin Germany: Institute for water, soil and hygiene.</div>
 
 
 
<div style="color:#00000a;">Molhave, L., Bach, B. and Pedersen, O.F., 1986. Human reactions to low concentrations of volatile organic compounds. <span style="color:#00000a;">''Environment International''</span>, 12(1-4), pp.167–175.</div>
 
 
 
<div style="color:#00000a;">Morey, P.R., Hodgson, M.J., Sorenson, W.G., Kullman, G.J., Rhodes, W.W. and Visvesvara, G.S., 1984. Environmental studies in moldy office buildings: Biological agents, sources and preventive measures. In: <span style="color:#00000a;">''Annual American conference of governmental industrial hygiene,''</span><span style="color:#ff0000;"> </span>Vol. 10, 1984, pp.21-35.</div>
 
 
 
<div style="color:#00000a;">Naidoo, S. and Jinabhai, C.C., 2006. TB in health care workers in KwaZulu-Natal, South Africa. <span style="color:#00000a;">''The International Journal of Tuberculosis and Lung Disease,''</span> 10(6),pp.676-682.</div>
 
 
 
<div style="color:#00000a;"><span style="color:#00000a;">Nardell, E.A., 1995. Interrupting transmission from patients with unsuspected tuberculosis: a unique role for upper room ultraviolet air disinfection.</span> <span style="color:#00000a;">''American journal of Infection Control,''</span> <span style="color:#00000a;">23(2),pp.156 64.</span></div>
 
 
 
<div style="color:#00000a;">National Department of Health (NDoH), 2007. <span style="color:#00000a;">''The draft national infection prevention and control policy for TB, MDRTB and XDRTB.</span> ''<span style="color:#00000a;">South Africa: NDoH.</span></div>
 
 
 
<div style="color:#00000a;">National Department of Health, 2007. <span style="color:#00000a;">''Management of drug-resistant tuberculosis: Policy guidelines.''</span> [pdf] South Africa: NDoH. Available at: [http://www.search.gov.za http://www.search.gov.za] [Accessed 26 March 2014].</div>
 
 
 
<div style="color:#00000a;">National Department of Health, n.d. <span style="color:#00000a;">''Tuberculosis strategic plan for South Africa, 2007-2011</span>.'' [pdf] South Africa: NDoH. Available at: http://www.search.gov.za/info/search.jsp. [Accessed 26 March 2014].</div>
 
 
 
<div style="color:#00000a;">National Institute for Occupational Health and Safety (NIOSH) and U.S Department of Health, Education and Welfare, 1972. <span style="color:#00000a;">''Occupational exposure to ultraviolet radiation.''</span> [pdf] Atlanta, GA: Department of Health, Education and Welfare. Available at: http://www.cdc.gov/niosh/pdfs/7311009a.pdf [Accessed 26 March 2014]. </div>
 
 
 
<div style="color:#00000a;">Parsons, S.A., Abbott, G.R., De Jager, P., Conradie, D.C.U. and Bole, S., 2010. Researched solutions for long-term accommodation units for drug-resistant tuberculosis patients in South Africa. In: CSIR, <span style="color:#00000a;">''Science real and relevant conference. ''</span><span style="color:#00000a;">CSIR International Convention Centre Pretoria, South Africa, 2010. Pretoria: CSIR.</span></div>
 
 
 
<div style="color:#00000a;">Price Waterhouse Coopers LLP in association with the University of Sheffield and Queen Margaret University College Edinburgh, 2004.<span style="color:#00000a;">'' The role of hospital design in the recruitment, retention and performance of NHS nurses in England.''</span> [pdf] Belfast UK: Commission for Architecture and the Built Environment (CABE). Available at: [http://webarchive.nationalarchives.gov.uk/20110118095356/http:/www.cabe.org.uk/files/the-role-of-hospital-design-appendices.pdf http://webarchive.nationalarchives.gov.uk/20110118095356/http:/www.cabe.org.uk/files/the-role-of-hospital-design-appendices.pdf] [Accessed 13 February 2014].</div>
 
 
 
<div style="color:#00000a;">Riley, R.L, Mills, C.C, O’Grady, F., Sultan, L.U., Wittstadt, F. and Shivpuri, D.N., 1962. Infectiousness of air from a tuberculosis ward. Ultraviolet irradiation of infected air: comparative infectiousness of different patients. <span style="color:#00000a;">''The American Review of Respiratory Disease''</span>, 85, pp.511-25.</div>
 
 
 
<div style="color:#00000a;">Riley, R.L. and Nardell, E.A., 1989. Clearing the air: The theory and application of ultraviolet air disinfection. <span style="color:#00000a;">''The American Review of Respiratory Disease</span>,'' 139(5), pp.1286– 1294.</div>
 
 
 
<div style="color:#00000a;">Riley, R.L. and O’Grady, F., 1961. <span style="color:#00000a;">''Airborne infection: Transmission and control.''</span> New York USA: The Macmillan Company. </div>
 
 
 
<div style="color:#00000a;">Riley, R.L., 1974. Airborne infection. <span style="color:#00000a;">''The American Journal of Medicine''</span>, <span style="color:#00000a;">57, pp.466-475.</span></div>
 
 
 
<div style="color:#00000a;">Riley, R.L., Knight, M. and Middlebrook, G., 1976. Ultraviolet susceptibility of BCG and virulent tubercle bacilli. <span style="color:#00000a;">''The American Review of Respiratory Disease''</span>, 113(4), pp.413–418.</div>
 
 
 
<div style="color:#00000a;">Samet, J.M., Marbury, M.C. and Spengler, J.D., 1988. Health effects and sources of indoor air pollution. Part II. <span style="color:#00000a;">''The American Review of Respiratory Disease''</span>, 137(1), pp.221–242.</div>
 
 
 
<div style="color:#00000a;">Sanjaya, N.S. and Mark, J.F., 2004. Detention for tuberculosis: public health and the law. <span style="color:#00000a;">''Medical Journal of Australia</span>, ''180(11), pp.573–576.</div>
 
 
 
<span style="color:#00000a;">Singh, J.A., Upshur, R., and Padayatchi, N., 2007. XDR-TB in South Africa: No time for denial or complacency</span>. <span style="color:#00000a;">''PLoS Medicine,''</span> <span style="color:#00000a;">4(1). January 2007; 4(1), 19-25.</span>
 
 
 
<div style="color:#00000a;">Singh, T, van Reenen, T, de Jager, P, Poluta, M, Stoltz, A, 2015. ''UVGI Disinfection Of Room Air: An Evidence Based Guideline for Design, Implementation and Maintenance'', Available at: [http://www.tb-ipcp.co.za/index.php/tools-resources/documents-paper-and-articles http://www.tb-ipcp.co.za/index.php/tools-resources/documents-paper-and-articles] [Accessed 26 Aug 2015]</div>
 
 
 
<div style="color:#00000a;">South African Bureau of Standards, 2011. <span style="color:#00000a;">''SANS 10400-O:2011 The application of the national building regulations Part O: Lighting and ventilation.''</span> <span style="color:#00000a;">Pretoria South Africa: SABS Standards Division.</span></div>
 
 
 
<div style="color:#00000a;">Southern African Legal Information Institute (SAFLII), 2008.<span style="color:#ff0000;"> </span><span style="color:#00000a;">''Minister of health of the province of the Western Cape v Goliath and others.''</span><span style="color:#ff0000;"> </span><span style="color:#00000a;">(Case number 13741/07). [pdf] Cape Town: SAFLII. Available at </span>[http://www.saflii.org/za/cases/ZAWCHC/2008/41.pdf http://www.saflii.org/za/cases/ZAWCHC/2008/41.pdf] <span style="color:#00000a;">[Accessed 27 March 2014].</span></div>
 
 
 
<span style="color:#00000a;">''The Occupational Health and Safety Act 1993.</span> ''s.8(1).<span style="color:#00000a;"> Cape Town South Africa: Government Gazette.</span>
 
 
 
<div style="color:#00000a;">The South African Pharmacy Council, 2010. <span style="color:#00000a;">''Good pharmacy practise in South Africa.''</span> 4th ed. Arcadia Pretoria: South African Pharmacy Council.</div>
 
 
 
<div style="color:#00000a;">Ulrich, R.S., Zimring, C., Zhu, X., DuBose, J., Seo, H.B., Choi, Y.S., Quan, X. and Joseph, A., 2008. A review of the research literature on evidence-based healthcare design. <span style="color:#00000a;">''Health Environments Research & Design''</span>, 1(3), pp.61-125.</div>
 
 
 
<div style="color:#00000a;"><span style="color:#00000a;">WHO Natural Ventilation for Infection Control in Health-Care Settings [Book]. - 2009.</span></div>
 
 
 
<div style="color:#00000a;">World Health Organisation (WHO), 2008. <span style="color:#00000a;">''Intergrated health services- what and why''</span>? (Technical brief No. 1.). Geneva: WHO. </div>
 
 
 
<div style="color:#00000a;">World Health Organisation (WHO), 2009a. <span style="color:#00000a;">''Natural ventilation for infection control in health-care settings</span> ''[pdf] Geneva Switzerland: WHO Press. Available at: [http://whqlibdoc.who.int/publications/2009/9789241547857_eng.pdff http://whqlibdoc.who.int/publications/2009/9789241547857_eng.pdf] [Accessed 13 February 2014].</div>
 
 
 
<div style="color:#00000a;">World Health Organisation (WHO), 2010. <span style="color:#00000a;">''Workload indicators of staffing need: User’s manual.''</span> <span style="color:#00000a;">Geneva: WHO.</span></div>
 
 
 
<div style="color:#00000a;">World Health Organisation (WHO), 2013. <span style="color:#00000a;">''Global tuberculosis report. ''</span><span style="color:#00000a;">Geneva: WHO.</span></div>
 
 
 
<div style="color:#00000a;"><span style="color:#00000a;">Xu Peng [et al.] Efficacy of ultraviolet germicidal irradiation of upper-room air in inactivatingairborne bacterial spores and mycobacteria in full-scale studies [Journal] // Athmospheric Environment 37. - 2003. - pp. 405-419.</span></div>
 
 
 
<div style="color:#00000a;">Xu, P., Peccia, J., Fabian, P., Martyny, J.W., Fennelly, K.P., Hernandez, M. and Miller, S.L., 2003. Efficacy of ultraviolet germicidal irradiation of upper-room air in inactivating airborne bacterial spores and mycobacteria in full-scale studies. <span style="color:#00000a;">''Atmospheric Environment,''</span><span style="color:#000000;"> </span>37 (2003), pp.405–419.</div>
 
 
 
= {{anchor|Toc339898686}} {{anchor|Toc428538880}} Abbreviations =
 
 
 
 
 
{| style="border-spacing:0;width:16.261cm;"
 
|- style="border:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;"
 
| style="color:#00000a;" | ACGIH
 
| style="color:#00000a;" | American Conference of Governmental Hygienists
 
|- style="border:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;"
 
| style="color:#00000a;" | ACH
 
| style="color:#00000a;" | Air changes per hour
 
|- style="border:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;"
 
| style="color:#00000a;" | AIA
 
| style="color:#00000a;" | American Institute of Architects
 
|- style="border:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;"
 
| style="color:#00000a;" | AIIR
 
| style="color:#00000a;" | Airborne infection isolation room
 
|- style="border:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;"
 
| style="color:#00000a;" | ASHRAE
 
| style="color:#00000a;" | American Society of Heating, Refrigerating and Air-Conditioning Engineers
 
|- style="border:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;"
 
| style="color:#00000a;" | CDC
 
| style="color:#00000a;" | Centers for Disease Control and Prevention (US agency)
 
|- style="border:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;"
 
| style="color:#00000a;" | CSIR
 
| style="color:#00000a;" | Council for Scientific and Industrial Research
 
|- style="border:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;"
 
| style="color:#00000a;" | CSSD
 
| style="color:#00000a;" | central sterile supply department
 
|- style="border:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;"
 
| style="color:#00000a;" | DR
 
| style="color:#00000a;" | drug-resistant
 
|- style="border:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;"
 
| style="color:#00000a;" | DR TB
 
| style="color:#00000a;" | drug-resistant TB
 
|- style="border:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;"
 
| style="color:#00000a;" | EIA
 
| style="color:#00000a;" | environmental impact assessment
 
|- style="border:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;"
 
| style="color:#00000a;" | IAQ
 
| style="color:#00000a;" | indoor air quality
 
|- style="border:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;"
 
| style="color:#00000a;" | ICT
 
| style="color:#00000a;" | information communications technology
 
|- style="border:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;"
 
| style="color:#00000a;" | IPC
 
| style="color:#00000a;" | infection prevention and control
 
|- style="border:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;"
 
| style="color:#00000a;" | IRPA
 
| style="color:#00000a;" | International Radiation Protection Agency
 
|- style="border:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;"
 
| style="color:#00000a;" | LEV
 
| style="color:#00000a;" | local exhaust ventilation
 
|- style="border:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;"
 
| style="color:#00000a;" | MDR TB
 
| style="color:#00000a;" | multi-drug-resistant TB
 
|- style="border:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;"
 
| style="color:#00000a;" | NDoH
 
| style="color:#00000a;" | National Department of Health
 
|- style="border:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;"
 
| style="color:#00000a;" | NGO
 
| style="color:#00000a;" | non-governmental organisation
 
|- style="border:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;"
 
| style="color:#00000a;" | NHLS
 
| style="color:#00000a;" | National Health Laboratory Service (SA agency)
 
|- style="border:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;"
 
| style="color:#00000a;" | NHI
 
| style="color:#00000a;" | National Health Insurance
 
|- style="border:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;"
 
| style="color:#00000a;" | NIOSH
 
| style="color:#00000a;" | National Institute of Occupational Safety and Health (US agency)
 
|- style="border:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;"
 
| style="color:#00000a;" | OHS
 
| style="color:#00000a;" | occupational health and safety
 
|- style="border:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;"
 
| style="color:#00000a;" | OPD
 
| style="color:#00000a;" | outpatient department
 
|- style="border:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;"
 
| style="color:#00000a;" | OT
 
| style="color:#00000a;" | occupational therapy / occupational therapist
 
|- style="border:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;"
 
| style="color:#00000a;" | PAC
 
| style="color:#00000a;" | Portable air cleaner
 
|- style="border:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;"
 
| style="color:#00000a;" | PHC
 
| style="color:#00000a;" | primary healthcare
 
|- style="border:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;"
 
| style="color:#00000a;" | PMV
 
| style="color:#00000a;" | predicted mean vote
 
|- style="border:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;"
 
| style="color:#00000a;" | PPE
 
| style="color:#00000a;" | personal protective equipment
 
|- style="border:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;"
 
| style="color:#00000a;" | QASA
 
| style="color:#00000a;" | Quadra-para Association of South Africa
 
|- style="border:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;"
 
| style="color:#00000a;" | REL
 
| style="color:#00000a;" | recommended exposure limit
 
|- style="border:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;"
 
| style="color:#00000a;" | RH
 
| style="color:#00000a;" | relative humidity
 
|- style="border:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;"
 
| style="color:#00000a;" | RSE
 
| style="color:#00000a;" | relative spectral effectiveness
 
|- style="border:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;"
 
| style="color:#00000a;" | SAHNORMS
 
| style="color:#00000a;" | South African hospital norms
 
|- style="border:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;"
 
| style="color:#00000a;" | SDP
 
| style="color:#00000a;" | site development plan
 
|- style="border:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;"
 
| style="color:#00000a;" | TB
 
| style="color:#00000a;" | tuberculosis
 
|- style="border:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;"
 
| style="color:#00000a;" | TLV
 
| style="color:#00000a;" | threshold limit values
 
|- style="border:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;"
 
| style="color:#00000a;" | UVA
 
| style="color:#00000a;" | ultraviolet “A” (wavelength 400&nbsp;nm–315&nbsp;nm)
 
|- style="border:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;"
 
| style="color:#00000a;" | UVB
 
| style="color:#00000a;" | ultraviolet “B” (wavelength 315&nbsp;nm–280&nbsp;nm)
 
|- style="border:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;"
 
| style="color:#00000a;" | UVC
 
| style="color:#00000a;" | ultraviolet “C” (wavelength 280&nbsp;nm–100&nbsp;nm)
 
|- style="border:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;"
 
| style="color:#00000a;" | UVGI
 
| style="color:#00000a;" | ultraviolet germicidal irradiation
 
|- style="border:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;"
 
| style="color:#00000a;" | WHO
 
| style="color:#00000a;" | World Health Organisation
 
|- style="border:none;padding-top:0cm;padding-bottom:0cm;padding-left:0.191cm;padding-right:0.191cm;"
 
| style="color:#00000a;" | XDR TB
 
| style="color:#00000a;" | extreme (or extensively) drug-resistant TB
 
 
|-
 
|-
 +
|XDR TB
 +
|extreme (or extensively) drug-resistant TB
 
|}
 
|}
# <div style="margin-left:0.63cm;margin-right:0cm;">{{anchor|Ref428458971}} {{anchor|Toc428538881}} '''Indoor Sputum booth'''</div>
 
 
== {{anchor|Toc428538882}} Application ==
 
 
<div style="margin-left:0cm;margin-right:1.801cm;"></div>
 
 
<div style="color:#00000a;">This document contains a set of drawings and specifications presenting prototype concept of a Sputum Booth developed at the CSIR. These are intended for the clinical applications. Further information can be obtained from the Architectural Engineering Group of the Building Scient and Technology Unit of the CSIR'''''. '''''</div>
 
 
 
== {{anchor|Toc428538883}} Background ==
 
 
<div style="margin-left:0cm;margin-right:1.801cm;"></div>
 
 
<div style="color:#00000a;">This document presents technical drawings and specifications of the concept a sputum induction and collection booth designed for TB infection control in clinical settings. The prototype was developed by the Architectural Engineering Group, Building Science & Technology Programme, Division of Built Environment, CSIR. The development process of this facility was described in a separate report: ''“Development of a prototype of the Sputum Booth; CDC project”'', November 2013.</div>
 
 
 
<div style="color:#00000a;">The related work was carried out in terms of the international research project funded by the Centre for Disease Control (CDC). </div>
 
 
{{clear}}
 
[[Image:|none]]
 
 
{{anchor|Toc428539007}} Figure 10 Sputum booth, Rear View
 
 
  
== {{anchor|Toc428538884}} Suggestions improvements on concept booth ==
+
='''Annexure 1. Indoor sputum booth'''=
  
<div style="color:#00000a;">Upon the completion of the prototype unit, a few areas were identified for further improvements. These relate to the following:</div>
+
==Application==
 +
This document contains a set of drawings and specifications presenting prototype concept of a Sputum Booth developed at the CSIR. These are intended for the clinical applications. Further information can be obtained from the Architectural Engineering Group of the Building Scient and Technology Unit of the CSIR'''''.'''''
  
 +
==Background==
 +
This document  presents technical drawings and specifications of the concept a sputum induction and collection booth designed for TB infection control in clinical settings. The prototype was developed by the Architectural Engineering Group, Building Science & Technology Programme, Division of Built Environment, CSIR.  The development process of this facility was described in a separate report: ''“Development of a prototype of the Sputum Booth; CDC project”'', November 2013.
  
* The mass of the unit is still too high for safe and resiliant transport. Solutions for weight reduction should be soughtExternal fold away handels could be included in the design for easier handling of the unit.
+
The related work was carried out in terms of the international research project funded by the Centre for Disease Control (CDC).  
* The overall length of the booth could be reduced by about 150 mm. This would still provide enough space to accommodate a person in a wheelchair.
+
[[File:Sputum booth, rear view.jpg|none|thumb|Figure 10: Sputum booth, rear view]]
*
 
* The costs and mass of future units could be reduced by replacing the aluminium sandwich panelling with polymer sheeting
 
* The fan-filter unit could be constructed such that is an integral structural component of the booth, reducing size and weight of the overall unit.
 
*
 
* incorporating an additional flexible one-way membrane behind the screen of the pre filter would limit the reversed airflow back into the booth when the booth is non-operational or during transportation.
 
 
 
== {{anchor|Toc428538885}} ARDUINO WIRING CODE FOR DOOR INTERLOCK TIMER ==
 
  
 +
==Suggestions improvements on concept booth==
 +
Upon the completion of the prototype unit, a few areas were identified for further improvements. These relate to the following:
  
 +
*The mass of the unit is still too high for safe and resiliant transport. Solutions for weight reduction should be soughtExternal fold away handels could be included in the design for easier handling of the unit.
 +
*The overall length of the booth could be reduced by about 150 mm. This would still provide enough space to accommodate a person in a wheelchair.
 +
*The costs and mass of future units could be reduced by replacing the aluminium sandwich panelling with polymer sheeting
 +
*The fan-filter unit could be constructed such that is an integral structural component of the booth, reducing size and weight of the overall unit.
 +
*Incorporating an additional flexible one-way membrane behind the screen of the pre filter would limit the reversed airflow back into the booth when the booth is non-operational or during transportation.
  
 +
==Arduino wiring code for door interlock timer==
 
/*Begin*/
 
/*Begin*/
  
Line 2,398: Line 1,571:
 
12 ------------------- Door Magnet Relay
 
12 ------------------- Door Magnet Relay
  
<nowiki>*/</nowiki>
+
<nowiki>*</nowiki>/
  
 
//Initiate variables
 
//Initiate variables
  
int doorLOCK = 12;//5v relay pin, switching 12V Magnet
+
int doorLOCK = 12;                                            //5v relay pin, switching 12V Magnet
  
int lockedLED = 11;//redLED
+
int lockedLED = 11;                                            //redLED
  
int unlockLED = 10;//greenLED
+
int unlockLED = 10;                                            //greenLED
  
int unlockButton = 9;//External Button requesting an door unlock. Cannot override timer --requires 10k pull-up resistor & 5V Vcc
+
int unlockButton = 9;                            //External Button requesting an door unlock. Cannot override timer --requires 10k pull-up resistor & 5V Vcc
  
int releaseButton = 8;//Internal button requesting a door release. Overrides timer --requires 10k pull-up resistor & 5V Vcc
+
int releaseButton = 8;                           //Internal button requesting a door release. Overrides timer --requires 10k pull-up resistor & 5V Vcc
  
float unlockDELAY = 3000;//3 seconds
+
float unlockDELAY = 3000; //3 seconds
  
float lockDELAY = 30000;//30 seconds
+
float lockDELAY = 30000;                  //30 seconds
  
float unlockTimeStamp;
+
float unlockTimeStamp;                      
  
 
float lockTimeStamp;
 
float lockTimeStamp;
Line 2,426: Line 1,599:
 
int UNLOCK = 1;
 
int UNLOCK = 1;
  
int LOCK = 0;//using normally closed relay config
+
int LOCK = 0;                                                     //using normally closed relay config
  
 
int ON = 1;
 
int ON = 1;
Line 2,434: Line 1,607:
 
void setup() {
 
void setup() {
  
pinMode(doorLOCK,OUTPUT);
+
              pinMode(doorLOCK,OUTPUT);
  
pinMode(lockedLED,OUTPUT);
+
              pinMode(lockedLED,OUTPUT);
  
pinMode(unlockLED,OUTPUT);
+
              pinMode(unlockLED,OUTPUT);
  
pinMode(unlockButton,INPUT);
+
              pinMode(unlockButton,INPUT);
  
pinMode(releaseButton,INPUT);
+
              pinMode(releaseButton,INPUT);
  
Serial.begin(9600);
+
              Serial.begin(9600);
  
Serial.println("restart");
+
              Serial.println("restart");
  
digitalWrite(unlockLED,OFF);
+
              digitalWrite(unlockLED,OFF);
  
digitalWrite(lockedLED,ON);
+
              digitalWrite(lockedLED,ON);
  
 
}
 
}
Line 2,456: Line 1,629:
 
void loop() {
 
void loop() {
  
Serial.print("unlock: ");
+
              Serial.print("unlock: ");
  
Serial.print(digitalRead(unlockButton));
+
              Serial.print(digitalRead(unlockButton));
  
Serial.print(" release: ");
+
              Serial.print(" release: ");
  
Serial.print(digitalRead(releaseButton));
+
              Serial.print(digitalRead(releaseButton));
  
Serial.print(" unlockLED: ");
+
              Serial.print(" unlockLED: ");
  
Serial.println(digitalRead(unlockLED));
+
              Serial.println(digitalRead(unlockLED));
  
if (digitalRead(releaseButton) == pressed){//check for release button press
+
              if (digitalRead(releaseButton) == pressed){                                       //check for release button press
  
while (digitalRead(releaseButton) == pressed){//holds code until button released
+
              while (digitalRead(releaseButton) == pressed){                  //holds code until button released
  
unlockDOOR();// unlock door function
+
              unlockDOOR();                                                                                // unlock door function
  
}
+
                                            }
  
}
+
              }
  
if (digitalRead(unlockButton) == pressed){//check for unlock button press
+
              if (digitalRead(unlockButton) == pressed){                                       //check for unlock button press
  
if (digitalRead(unlockLED) == ON){//only unlocks door if unlock LED is lit
+
                             if (digitalRead(unlockLED) == ON){                   //only unlocks door if unlock LED is lit
  
while (digitalRead(unlockButton) == pressed){//holds code until button released
+
                                            while (digitalRead(unlockButton) == pressed){//holds code until button released
  
unlockDOOR();
+
                                                           unlockDOOR();
  
}
+
                                            }
  
}//unlock door function
+
                                            }                                                                         //unlock door function
  
}
+
                             }
  
if (millis()> (unlockTimeStamp+unlockDELAY)){//counts down unlock delay and then locks door again
+
              if (millis()> (unlockTimeStamp+unlockDELAY)){                            //counts down unlock delay and then locks door again
  
Serial.print("CountDown: "); Serial.println((lockDELAY+unlockTimeStamp+unlockDELAY-millis())/1000);
+
                             Serial.print("CountDown: "); Serial.println((lockDELAY+unlockTimeStamp+unlockDELAY-millis())/1000);
  
if ((digitalRead(unlockButton) == unpressed)&&(digitalRead(releaseButton) == unpressed)){
+
                             if ((digitalRead(unlockButton) == unpressed)&&(digitalRead(releaseButton) == unpressed)){
  
if (digitalRead(doorLOCK)!=LOCK){//checks for unlock button hold before locking door
+
                                            if (digitalRead(doorLOCK)!=LOCK){  //checks for unlock button hold before locking door
  
lockDOOR();//lock door function
+
                                                           lockDOOR();                                       //lock door function
  
}
+
                                            }
  
}
+
                             }
  
}
+
              }
  
if (millis()> (lockTimeStamp+lockDELAY)){
+
              if (millis()> (lockTimeStamp+lockDELAY)){
  
digitalWrite(unlockLED, ON);
+
                             digitalWrite(unlockLED, ON);
  
}
+
                             }
  
 
}
 
}
Line 2,518: Line 1,691:
 
void unlockDOOR(){
 
void unlockDOOR(){
  
Serial.println("unlocking...");
+
              Serial.println("unlocking...");
  
unlockTimeStamp = millis();// initiate unlock counter
+
              unlockTimeStamp = millis();                                              // initiate unlock counter
  
digitalWrite(lockedLED,OFF);
+
              digitalWrite(lockedLED,OFF);
  
digitalWrite(unlockLED,OFF);
+
              digitalWrite(unlockLED,OFF);
  
digitalWrite(doorLOCK,UNLOCK);
+
              digitalWrite(doorLOCK,UNLOCK);
  
 
}
 
}
Line 2,532: Line 1,705:
 
void lockDOOR(){
 
void lockDOOR(){
  
Serial.print("locking... ");
+
              Serial.print("locking... ");
  
lockTimeStamp = millis();
+
              lockTimeStamp = millis();
  
digitalWrite(doorLOCK,LOCK);
+
              digitalWrite(doorLOCK,LOCK);
  
digitalWrite(lockedLED,ON);
+
              digitalWrite(lockedLED,ON);
  
digitalWrite(unlockLED,OFF);
+
              digitalWrite(unlockLED,OFF);
  
Serial.print("unlockLED: ");
+
              Serial.print("unlockLED: ");
  
Serial.println(digitalRead(unlockLED));
+
              Serial.println(digitalRead(unlockLED));
  
 
}
 
}
Line 2,550: Line 1,723:
 
/*end*/
 
/*end*/
  
<div style="margin-left:0cm;margin-right:1.801cm;">'''5. DRAWINGS'''</div>
+
==Drawings==
 
+
[[File:Sputum booth, left view.jpg|none|thumb|490x490px|Figure 11: Sputum booth, left view]]
 
+
[[File:Sputum booth, front view.png|none|thumb|484x484px|Figure 12: Sputum booth, front view]]
[[Image:]]
+
[[File:Sputum booth, Isometric view.png|none|thumb|498x498px|Figure 13: Sputum booth, Isometric view]]
 
+
[[File:Sputum booth, door control logic.png|none|thumb|547x547px|Figure 14: Sputum booth, door control logic]]
{{anchor|Toc428539008}} Figure 11 Sputum booth, Left View
+
[[File:Sputum booth, door controller wiring.png|none|thumb|Figure 15: Sputum booth, door controller wiring]]
 
+
[[File:Sputum booth, door controller PCB (NTS).png|none|thumb|Figure 16: Sputum booth, door controller PCB (NTS)]]
 
+
='''Annexure 2.    Pre-fabricated outdoor sputum booth'''=
[[Image:|top]]
+
[[File:Sputum Booth Isometric view.png|none|thumb|Figure 17: Sputum booth Isometric view]]
 
+
[[File:Sputum Booth front view.png|none|thumb|Figure 18: Sputum booth front view]]
{{anchor|Toc428539009}} Figure 12 Sputum booth, Front View
+
[[File:Sputum booth, side view..png|none|thumb|Figure 19: Sputum booth, side view.]]
 
 
 
 
 
 
 
 
[[Image:]]
 
 
 
{{anchor|Toc428539010}} Figure 13 Sputum booth, ISOMETRIC View
 
 
 
 
 
 
 
 
 
[[Image:|top]]
 
 
 
{{anchor|Toc428539011}} Figure 14 Sputum booth, DOOR CONTROL LOGIC
 
 
 
 
 
<div style="text-align:center;">[[Image:|top]]</div>
 
 
 
{{anchor|Toc428539012}} Figure 15 Sputum booth, Door controller wiring
 
 
 
 
 
{{clear}}
 
[[Image:|center]]
 
 
 
{{anchor|Toc428539013}} Figure 16 Sputum booth, DOOR CONTROLLER PCB (NTS)
 
 
 
 
 
# <div style="margin-left:0.63cm;margin-right:0cm;">{{anchor|Toc428538886}} {{anchor|Ref428458977}} '''PRE-Fabricated Outdoor Sputum booth '''</div>
 
 
 
 
 
  
{{clear}}
+
='''Annexure 3. Brickwork outdoor sputum booth'''=
[[Image:|center]]  
+
[[File:Brickwork sputum booth-layout and detail.png|none|thumb|502x502px|Figure 20: Brickwork sputum booth-layout and detail]]
  
  
  
[[Image:|middle]]
 
  
  
[[Image:]]# <div style="margin-left:0.63cm;margin-right:0cm;">{{anchor|Toc428538887}} '''Brickwork Outdoor Sputum booth '''</div>
 
  
  
Line 2,606: Line 1,747:
  
  
<div style="color:#00000a;">[[Image:]]</div>
 
  
----
+
<br />
<references/>
+
[[Category:Clinical Services]]
{{expand}}
 

Latest revision as of 12:01, 3 September 2021

Contents

PART A - Policy and service context

Legislation, policies and international guidance

Infection Prevention and Control Legislation

The National Infection Prevention and Control Policy and Strategy makes specific reference to certain Acts and their relevant regulations, which bear relevance to the development and implementation of these health facility guidelines. These are:
  • Constitution of the Republic of South Africa, 1996. s.2,24,27,36&39.
  • The National Health Act 2003. (c.61). Cape Town South Africa: Government Gazette.
  • The Occupational Health and Safety Act 1993. s.8(1). Cape Town South Africa: Government Gazette.

Department of Labour, 2001. Regulations for hazardous biological agents. (Government notice No. R. 1390 of the Occupational Health and Safety Act, 1993. s.43). Pretoria South Africa: Government Gazette

Department of Health, 2003. Regulations relating to the application of the hazard analysis and critical control point system (HACCP system). (Government notice No. R. 908 of the Foodstuffs, Cosmetics and Disinfectant Act, 1972. (c.54)). Cape Town South Africa: Government Gazette.

  • The Environmental Conservation Act 1989. (c.73). Cape Town South Africa: Government Gazette.
  • The Foodstuffs, Cosmetic and Disinfectants Act 1972. (c.45). Cape Town South Africa: Government Gazette.Building legislation
The following legislation and regulations impact and provide guidance on the provision and design of healthcare facilities as above:
  • The Pharmacy Act 53 of 1974. (c.53). Cape Town South Africa: Government Gazette.
  • The National Environmental Management Act 1998. (c.107). Cape Town South Africa: Government Gazette.
  • Building Regulations and Building Standards Act 1977. (c.103). Cape Town South Africa: Government Gazette.
  • South African Bureau of Standards (SABS), 1990. SANS 10400:1990 Code of practice for the application of the national building regulations.Pretoria South Africa: SABS Standards Division.
  • Promotion of Equality and Prevention of Unfair Discrimination Act 2000. (c.4). Cape Town South Africa: Government Gazette.

Infection prevention and control and TB management policy and guidelines

  • National Department of Health (NDoH), 2007. The draft national infection prevention and control policy for TB, MDRTB and XDRTB. South Africa: NDoH.

National Department of Health, 2007. Management of drug-resistant tuberculosis: Policy guidelines. [pdf] South Africa: NDoH. Available at: http://www.search.gov.za [Accessed 26 March 2014].

National Department of Health, n.d. Tuberculosis strategic plan for South Africa, 2007-2011. [pdf] South Africa: NDoH. Available at: http://www.search.gov.za/info/search.jsp. [Accessed 26 March 2014].

South African building practice policy and guidelines

  • The South African Pharmacy Council, 2004. Good pharmacy practice. (Board notice 129). Cape Town South Africa: Government Gazette.

International design guidance

South Africa faces one of the most devastating TB epidemics in the world. TB – with TB/HIV/Aids – is the leading cause of death
  • American Society of Heating, Refrigerating and Air-Conditioning Engineers (ASHRAE), 1999. ANSI/ASHRAE standard 52.2-1999 Method of testing general ventilation air cleaning devices for removal efficiency by particle size. Atlanta USA: ASHRAE.
  • American Society of Heating, Refrigerating and Air-Conditioning Engineers (ASHRAE), 1989. ASHRAE standard 62 Ventilation for acceptable indoor air quality. Atlanta USA: ASHRAE.
  • American Society of Heating, Refrigerating and Air-Conditioning Engineers (ASHRAE), 2003. HVAC design manual for hospitals and clinics. Atlanta USA: ASHRAE.

Chartered Institution of Building Services Engineers (CIBSE), 1997. CIBSE applications manual AM10 natural ventilation in non-domestic buildings. London: CIBSE.

Chartered Institution of Building Services Engineers (CIBSE), 2000. CIBSE applications manual AM13 mixed mode ventilation. London: CIBSE.

American Society of Heating, Refrigerating and Air-Conditioning Engineers (ASHRAE),

  • American Society of Heating, Refrigerating and Air-Conditioning Engineers (ASHRAE), 2009. ANSI/ASHRAE/ASHE standard 170-2008 ventilation of health care facilities. Atlanta USA: ASHRAE.
  • QASA, “Know Your Rights” [Accessibility & the Built Environment]
  • Department of Health and Human Services (Centre for Disease Control and Prevention), 2003. Environmental control for tuberculosis: Basic upper-room ultraviolet germicidal irradiation guidelines for healthcare setting. USA: DHHS.
  • World Health Organisation (WHO), 2009a. Natural ventilation for infection control in health-care settings. Geneva Switzerland: WHO
  • World Health Organisation (WHO), 2009b. WHO policy on TB infection control in health-care facilities, congregate settings and households. Geneva Switzerland: WHO

Service context

South Africa faces one of the most devastating Mycobacterium tuberculosis (TB) epidemics in the world, especially in terms of number of TB cases per capita and the total numbers of drug-resistant (DR) TB cases with a prevalence of 450/100 000. It has the third-highest incidence of TB globally (WHO, 2013, p.11). TB, together with HIV/Aids, is South Africa’s leading cause of morbidity and mortality. Furthermore, healthcare workers are at six or more times increased risk of acquiring TB, compared to the background population (Joshi, et al., 2006).

The WHO reports that TB treatment success is low and treatment default rates and mortality are high. The high default from TB treatment by patients represents a major problem which, in conjunction with other factors, has led to the emergence of drug-resistant TB (DR TB). Transmission of TB, multi-drug-resistant TB (MDR TB) and extreme (or extensively) drug-resistant TB (XDR TB) in communities and congregate settings has been documented in several studies, frequently linked to HIV infection and affecting vulnerable groups such as children. MDR and XDR TB linked with HIV therefore have the potential to result in an uncontrollable epidemic with devastating economic and social consequences. The epidemiological burden co-infection in South Africa is currently estimated to be in excess of 70% of TB and HIV (WHO, 2009b). Provision of poorly designed, maintained and operated infrastructure can exacerbate transmission. Well-designed and well-maintained facilities can reduce the risk of TB infection.

M. tuberculosis is an infectious disease, and is transmitted from person to person exclusively by the airborne route, usually through coughing by a patient with active pulmonary TB. MDR TB is a consequence of human error resulting from combinations of the management of drug supply, patient management, chemotherapy prescription and patient adherence. Treating MDR TB takes longer and requires drugs that are more toxic, more expensive (up to 100 times the cost of treating a drug-susceptible TB patient) and generally less effective, particularly in persons with HIV infection.

The problem of drug resistance in TB has been compounded by the emergence of XDR TB. Patients with XDR TB are extremely difficult and expensive to treat, with mortality rates between 50 and 70% (CDC, undated). In XDR TB patients with HIV co-infection, mortality rates, though improving, remain at about 90% (Neel, et al., 2010).

Owing to the District Health system, patients are intended to, and generally do, enter the healthcare system via primary healthcare services - namely the clinics and community health centres (CHCs) and private general practitioners (GPs). It is in these settings that untreated, undiagnosed infectious individuals will inevitably come into contact with susceptible individuals and the risk of transmission is produced. With the introduction of the NHI, the profile of risk in former “private” facilities may change as demographic shifts in access to these services occur. It is therefore in the interest of public health that private-sector facilities are designed, constructed and operated to meet airborne infection control requirements.

The National Department of Health (NDoH) Primary Healthcare Directorate advocates the WHO-endorsed approach in the public sector to integrated service provision (WHO, 2011). In the context of this document, this means that individuals seeking care are to receive all appropriate services and interventions at a “one-stop shop”. The common practice of provision of service by diagnosis within a facility (e.g. separation of TB, HIV/Aids, diabetes) or by vertical programmes (different clinical activities on different days) does not support integration of services. This implies that, as far as it is safe and reasonable, most services should be available in most patient/client contact spaces. The integration of services should not subject healthcare workers, clients or the public to undue exposure to airborne pathogens. In particular, when reconfiguring services in existing facilities, due diligence must be paid in ensuring that designs meet required standards for TB infection control.

Most TB patients will access services at the primary healthcare level and will require access on site to integrated services including, but not limited to:

  • clinical assessment (consulting room with examination facilities, clinical scale);
  • safe facilities for sample (sputum) collection;
  • nutrition;
  • psychosocial services (counselling); and
  • pharmacy dispensary for chronic medication.

In addition, on- or off-site access to the following services is required

  • laboratory services (microscopy, culture, GeneXpert, for drug sensitivity), and
  • radiology.

For a quick reference to primary healthcare services for uncomplicated building projects consult IUSS:GNS Primary Healthcare.

The majority of TB patients will be able to be treated in outpatient mode, with community-based adherence support and regular check-ups at the facility, and regular collection of chronic medication. A small number of patients, such as those who are severely ill, have more than one health concern (co-morbidity), or who are highly infectious may be admitted voluntarily to inpatient care in healthcare facilities. This may be within the general hospital population, in dedicated TB wards or in specialised dedicated facilities.

Evidence suggests that drug-susceptible TB and MDR TB, when diagnosed and under treatment, become rapidly less infectious (Dharmadhikari, forthcoming). This means that, after as little as 24 hours on appropriate treatment, TB patients - and even MDR patients - can be regarded as and accommodated with the non-infectious population. No special facilities are required for these patients (if they are short-term patients) and they can be accommodated in accordance with IUSS norms and standards (Refer to IUSS:GNS Adult inpatient services).

Patients recently enrolled on treatment (<24hours) who are suspected of having XDR, confirmed XDR patients, patients who interrupt treatment, and complicated cases may be considered infectious and negative-pressure isolation is strongly recommended - or, if not possible, at least patient management by respiratory isolation or, if that is not possible, by patient cohorting (patient management by clustering patients with most similar diagnoses).

The number of DR TB cases in South Africa increased from 10 085 in 2011 to 15 419 in 2012 (WHO, 2013, p.52). This is largely due to intensified case finding and investment in laboratory services. However, it represents only a portion of the estimated cases (WHO, 2013).

Since 2010 the SA National Department of Health has adopted a policy of decentralised management of Multi Drug-resistant TB. In addition to outpatient services, there is a requirement for inpatient hospital facilities:

  • for all types of TB patients (pulmonary, extra-pulmonary, etc.) requiring acute treatment for TB or other comorbidities
    • within patient populations of general hospitals,
    • In dedicated wards at general hospitals for acute episodes, and
    • at specialised hospitals (long-term accommodation) for sub-acute and palliative care for patients who are not best served by community-based care, for various reasons.

Inpatient beds for TB services have frequently been provided by converting old wards and sanatoria as a quick solution to address at least part of the pressing need. In many instances building infrastructure has been modified or retrofitted with the intention of making it suitable. However, because beds are provided in this reactive way, the infrastructure is frequently poorly aligned with current best infection-prevention and ‑control practice and patient-centred care.

South African healthcare workers are increasingly becoming aware of the need to implement and manage infection-control measures for preventing the spread of infectious diseases in healthcare settings; however, due to lack of resources, inadequate facility design and the lack of environmental controls, the means for achieving adequate infection-prevention and -control are not always found.

There have been both legal and ethical challenges posed to TB hospitalisation (Singh, Upshur and Padayatchi, 2007; London, 2009). Media have reported incidents of patients rioting and absconding (Dugger) which attested to the unpopularity of the policy and the unsuitability of the arrangements, including - though by no means limited to – the building infrastructure provided.

The NDoH has subsequently recognised the need to provide recreational, occupational and educational facilities for patients that require specialised long-term DR TB treatment (NDoH, 2007b, p.25). Social support should also be provided for all patients and their families whilst hospitalised. In the past TB facilities were simply not designed or built to address these needs. This must be recognised when assessing precedent or in identifying case study examples
Figure 1: Centralised management of MDR TB
Consequently the National Department of Health expanded its approach in adopting a multi-faceted decentralisation policy in future according to the following health framework for DR TB management (see Decentralised Management of Multi Drug Resistant TB – a Policy Framework for South Africa). According to this framework (see Figure 3), for a successful decentralised MDR TB programme, the following should be provided in inpatient care facilities in order to ensure adequate infrastructure and infection control measures:
  • Well ventilated consulting room
  • Well ventilated waiting area
  • Well ventilated rooms that can accommodate from one to six patients
  • Distance between beds not less than 1.2 m
  • Administration control measures of infection control in place
  • UVGI lights and extractors fans where possible
  • Respiratory protection tools available: surgical masks, N95 respirators

These policy requirements will go some way to addressing the twin objectives of patient-centred care and effective infection prevention and control in the emerging pandemic. However, there are additional planning, design, management and maintenance considerations to reach best practice standards and these are discussed in detail below.

Understanding transmission to manage risk

Transmission of M. Tuberculosis

In healthcare settings, physicians, nurses, general hospital staff, fellow patients and visitors are at a high risk for TB infection because they share the same breathing space as infectious patients: the transmission of TB disease is through the airborne route. Varicella-zoster virus, measles virus, and smallpox virus can also be transmitted by the airborne route, and mitigated with the means described in this document, but do not currently pose a comparable public health concern.

When the droplets produced by an infected person are inhaled by a susceptible person, TB may be contracted. However, this alone does not seem to account for observable instances of transmission. There is a widely accepted theory - the droplet-nucleus hypothesis - that infectious droplet nuclei containing tubercle bacilli may remain suspended in air for prolonged periods of time, potentially long after the infector has left the room. This leads to a high risk of infection in congregate settings (shared spaces). This risk cannot be eliminated. However, expert consensus is that with adequate ventilation or air purification the risk can be reduced. Here is a brief explanation for the transmission theory (Riley and O’Grady, 1961).

The bacterium, M. tuberculosis, becomes aerosolised in small droplets of water or bodily fluid when a person with the disease of the lung coughs, sneezes, laughs or sings. Many of the smallest respiratory droplets dry into “droplet nuclei” and become airborne following room air currents is described. Infection can occur when the droplet nuclei containing the bacterium are inhaled
Figure 2: Coughing generating aerosols - Source Jennison 1942
M. tuberculosis infection is different from TB disease. People having the infection without disease (latent TB) have been infected by the M. tuberculosis bacterium. They are not symptomatic because their body’s immune system has encapsulated the infectious material in the lung, where it is held dormant. They cannot spread the bacterium or disease to others when in this phase. However, people with infection may reactivate a dormant focus in the future, leading to disease.

The infection turns to disease when the body can no longer contain the infectious material in the lung. The infection then spreads, usually within the lung (where it is called pulmonary TB) and possibly to other areas of the body. This spread usually shows up as chronic respiratory symptoms such as cough and fever. People with TB disease of the lungs can therefore transmit the infectious bacterium.

Disease status

TB patient status could at any point:
  • be actively diseased and infectious;
  • be simultaneously infected by more than one strain;
  • be diseased and undergoing treatment;
  • be recovered after undergoing therapy;
  • be developing resistance while undergoing therapy;
  • have latent disease;
  • have relapsed into disease;
  • be re-infected;
  • be immune; or
  • have additional related/ unrelated medical conditions (co-morbidity)

Determining the current status of any given patient or transition times between statuses is problematic (given lags in diagnosis, individual patient responses etc.).

Table 1: Drug resistance TB (CDC, 2010, slide number 28)

Mono-resistant Resistant to any one TB treatment drug
Poly-resistant Resistant to at least any 2 TB drugs (but not both isoniazid and rifampin)
Multidrug-resistant

(MDR TB)

Resistant to at least isoniazid and rifampin, the 2 best first-line TB treatment drugs
Extensively

drug-resistant

(XDR TB)

Resistant to isoniazid and rifampin, PLUS resistant to any fluoroquinolone AND at least 1 of the 3 injectable second-line drugs (e.g., amikacin, kanamycin, or capreomycin)

Manifestations of TB

TB is an infection caused by Mycobacterium tuberculosis also referred to as tubercle bacilli. TB most commonly affects the lungs, producing pulmonary TB. It can however spread to almost any part of the body including lymph glands, joints, kidneys and bone called extra-pulmonary TB. Pulmonary TB is the manifestation of most concern to built environment professionals as it produces greatest risk for transmission to others.

Drug-susceptible TB

By far the majority of TB cases are susceptible to widely accessible, inexpensive drugs. It is generally curable if treatment is completed.

Pre-MDR TB

Drug resistance [see Table 1: Drug resistance TB (CDC, 2010, slide number 28)] can only be defined through laboratory confirmation of in-vitro resistance to one or more anti-TB drugs. Results are defined as follows:

  • Mono-resistant TB: in patients whose infection isolates of M. tuberculosis are confirmed to be resistant to one first line anti-TB drug.
  • Poly-resistant TB: TB in patients whose infection isolates are resistant in vitro to more than one first line drug, other than isoniazid and rifampicin.

MDR TB

MDR TB is active TB involving M. tuberculosis organisms that are resistant to at least isoniazid and rifampicin, the two most powerful anti-TB agents. An MDR TB strain can be resistant to more than these two antibiotics and in most cases it is resistant to first line drugs.

Pre-XDR TB

Pre-XDR TB is MDR TB which is resistant to either a fluoroquinolone or an injectable, but not both.

XDR TB

XDR TB is defined as TB with resistance to isoniazid and rifampicin, and - in addition to any fluoroquinolone, - to at least one of the three following injectable drugs used in anti-TB treatment: capromycin, kanamicyin and amikacin. Unlike TB and MDR TB patients, XDR TB patients are infectious even when on treatment and their drug-resistant strain can be transmitted directly to susceptible individuals. In other words, infection with a drug-resistant (including an XDR) strain of TB is possible without having contracted TB previously.

Paediatric patients

Children can contract any of the strains that adults can and manifest TB in all forms that adults present. There is consensus that whilst small children may have less lung capacity to develop velocities required for aerosolisation this has not been proven and is not universally true. Older, larger children are more likely to have transmission patterns like adults.

Origin of airborne infection

Organism-bearing particles are liberated into the air primarily from activities involving the respiratory tract such as sneezing and coughing. In quiet breathing, very few organisms are liberated, but in talking, coughing and especially in sneezing, large numbers of droplets, many of which contain organisms, are ejected. The high velocity of air passing over the respiratory tract shears off a profusion of small droplets which are forcibly ejected into the air.

The size of the droplets swept by an air current from the surface of a liquid is determined principally by the velocity of the air and the surface tension of the liquid. As the air velocity increases, the size of the droplets decreases until above 100 m/s where the diameter of the water droplets approaches at least 10 microns (μm). In sneezing and coughing, the peak air flow in the bronchi approaches 300 m/s and the droplets are in the order of six μm in diameter.

After being expelled from the TB patient’s mouth and nose, even the smallest droplets begin to fall. Generally, the large particle droplets fall to the ground where they become mixed with dust (see Figure 11). The fate of the smaller droplets is however, quite different. Droplets below a certain aerodynamic diameter fall slowly and lose water rapidly and evaporate almost instantaneously. In this way the droplet diminishes in size until the concentration of dissolved substances is such that the vapour pressure which the droplet exerts equals that of the atmosphere.

The residue of the droplet after evaporation, which may contain the micro-organism(s) from the respiratory tract, has been called the droplet nucleus. Droplet nuclei are so light that they may not settle in the gentlest of moving air of occupied spaces and may remain suspended for extended periods of time. This poses risk to building occupants until the particles are removed by ventilation or through other air disinfection.

Tubercle bacilli cannot be cultured from the air because of their low concentration and slow growth rate relative to other micro-organisms. The slow growth of tubercle bacilli and low concentrations in air require long sampling periods during which culture media, even with selective antibiotics to suppress microbial growth, become overgrown with fungi and other bacteria. Molecular amplification methods can detect nucleic acid from tubercle bacilli in the air, but cannot distinguish living from dead organisms nor quantify those with infectious potential. It is therefore not possible to measure infectiousness of TB or DR TB directly, nor can the efficacy of environmental infection control interventions to reduce or prevent transmission be measured directly.

Also, when considering airborne contagion, it is not well understood is how many infectious particles, or droplet nuclei, are required to infect. Compounding this uncertainty there are marked differences in the numbers of organisms liberated by coughing and sneezing of individual infectors. Despite these limiting factors, which are the subject of on-going speculation, investigation and scientific research, the general principles of contagious potential applies.

In any form of contagion the probability of infection increases with the degree of exposure to the infection (see Figure 3: Contagion). The factors implicated in the potential to be contagious are:

  • the presence of susceptible members of the community
  • the presence of infectious cases
  • the effective contact rate (opportunities for transmission) influenced by variables which in the airborne example are factors such as:
    • exposure time
    • breathing rates of infector and susceptible
    • virulence (strength) of bacteria
    • environment (qualities of the room, such as humidity, air volume)
Figure 3: Contagion

The probability of infection (1- e -Iqpt/Q) as a function of degree of exposure to infection Iqpt/Q (The point where Iqpt/Q =1 is identified by the co-ordinates).

The number of new cases occurring in an epidemic is directly related to the number of susceptible persons, the number of infectors and the effective contact rate. Respiratory droplets (for example flu), with their limited flight, range and dependence on the simultaneous presence of source and subject, behave as a form of effective contact. Droplet nuclei, with their prolonged suspension and rapid dispersion may provide an enhanced exposure and effective contact rate. It was for this reason that Wells called droplet-nucleus-borne infection, airborne contagion.

DR TB can be acquired in two different ways: primary and secondary modes. Primary transmission is caused by person-to-person transmission of a drug-resistant strain of the TB bacilli. Secondary infection develops during TB treatment, either because the patient was not treated with the appropriate treatment regimen or because the patient did not follow the treatment regimen as prescribed. Approximately 1.8% of new TB and 6.7% of retreatment cases results in MDR. DR TB can be transmitted in the same way as drug-susceptible TB.

Evidence suggests virulence of DR TB is the same as for drug-susceptible strains. However, DR TB is more difficult to treat because it can survive in a patient’s body even after treatment with the first-line drugs is started. A key challenge with current tuberculosis diagnosis technique is the delay in culturing this slow-growing organism in the laboratory. Blood or sputum culture results can take between four and twelve weeks. Because there has historically been a delay in diagnosing drug-resistant TB, these patients may be infectious for a longer period of time. Rapid screening tools for drug-resistance (GeneXpert) have been approved by the WHO, and are now in widespread use in South Africa.

The infectious droplet-nuclei which may remain suspended in air for prolonged periods of time and the respiratory droplets leads to a high risk of infection in shared spaces. This risk cannot be eliminated. However, expert consensus, based on strong circumstantial evidence, is that with adequate planning, design, management and maintenance, this risk can be reduced or managed. International best practice indicates that patients with drug-resistant TB should be closely monitored when commencing treatment and they should remain in isolation until they are no longer infectious.

The following invasive procedures should be regarded as high risk situations for transmission (Culver, Gordon and Mehta, 2003):

  • bronchoscopy,
  • sputum collection and induction, and
  • administration of aerosolized medications

Infection prevention and control hierarchy

The emergence of DR TB has highlighted the need for strengthened infection prevention and control (IPC) measures to interrupt the transmission of TB in healthcare settings. There is has been no observed difference between the speed of transmission of susceptible TB and resistant MDR or XDR TB. For this reason, infection control measures apply to all TB strains irrespective of the resistant pattern.

The requirement for controls to minimise the risk of spreading this airborne disease is legislated in the OHS Act (Act 85 of 1993). The National Department of Health Tuberculosis Strategic Plan for South Africa, 2007-2011, in the Decentralised Management of Multi Drug Resistant TB – a Policy Framework for South Africa and various international agencies such as the WHO, Centers for Disease Control and Prevention in the USA provide policy guidance for infection control practices. Common to the last two is the need to base these practices on the hierarchy of control measures. These are arranged from most to least important as follows:

Administrative measures such as work practices, policies and procedures, education and training, TB screening of healthcare workers, and appropriate utilisation of existing facilities, the implementation of environmental (engineering) controls, and the use of personal respiratory protection in specified areas where there is a high risk of exposure.

Administrative IPC measures

Appropriate architectural design to support the functional and operational processes required for the first level of the hierarchy of control, namely the administrative measures, must be investigated and ensured via the design and layout of the facility as a priority. The first and most important level of control is the use of administrative control measures is to prevent conditions for the spread of contagion, by limiting number and duration of encounters between susceptible members of the community and infectious air. Ideally, if the risk of exposure can be eliminated, no further controls are needed. Unfortunately, the risk usually cannot be eliminated, but it can be significantly reduced with proper administrative control measures. In any healthcare setting, important administrative control measures include:
  • early diagnosis of potentially infectious TB patients,
  • prompt separation or isolation of infectious TB patients, and
  • the prompt initiation of appropriate anti-tuberculosis treatment.

Other important administrative control measures include an assessment of the risk of transmission in the facility, the development of a TB infection control plan that details in writing the measures that should be taken in a given facility, and adequate training of healthcare workers to implement the plan.

Figure 4: CSIR generic model illustrating functional separation

From a facility planning and design perspective, administrative control measures can be addressed through the spatial separation techniques of functional separation, respiratory isolation, and separation for patient management. Functional separation (see Figure 4) provides for the physical separation of functionally discrete parts of the facility. Administrative functions and clinical support (admissions and discharge, accounts and finance, information services, medical records) should be substantially or exclusively reserved for staff use, and zoned separately. Nursing services, outpatient facilities, allied health services (radiology, pharmacy, rehabilitation) and visitors’ spaces may be used by both patients, staff and visitors, but should be laid out and managed so that the appropriate infection control measures are ensured. Finally patient support facilities, recreation facilities, and patient wards should be accessible to patients, but not necessarily all patients at all times, because of risk of cross-infection.

The following situations and design features have been identified as presenting the potential for increased risk of TB transmission in healthcare settings, so that when allocations of spaces are made in existing infrastructure systems the following should be borne in mind:

  • Congregate settings - any setting (usually waiting areas) where large groups of patients are kept in close proximity to each other are potentially high risk areas. The highest risks are usually in admission, main outpatient, emergency or pharmacy waiting areas where undiagnosed or untreated patients congregate. Smaller waiting areas or other functional areas, such as in x-ray departments or even multi-bed patient rooms can equally pose a risk.
  • Restricted / inadequate ventilation - appropriate ventilation is important, especially in congregate settings or other direct contact areas, such as dining facilities, occupational therapy areas etc. Waiting areas need to be adequately ventilated at all times in order to dilute concentrations of infectious airborne bacteria. Areas such as consulting, examination, counselling or treatment areas where staff spend long times in relatively small areas in close proximity to patients should be considered high risk areas. Minimum opening window areas are prescribed but often not complied with. The WHO guidelines (WHO, 2009a) indicate a target of 20% open window area to space floor area. The design of the window is also important to promote natural ventilation. However improved ventilation alone is usually not enough to reduce risk in that the directional flow of air to and from adjacent areas needs to be addressed.
  • Shape and volume - the shape and volume of a space can also be a risk indicator. Occupied spaces with minimal floor to ceiling height (often found in multi-storey buildings) are generally higher risk areas than those with a shaped ceiling to high level clear storey windows. Shape and volume usually is linked to ventilation flow patterns and rates. The position and ease of opening of both high and low level windows is important. Staff awareness of the need to keep windows open to allow unobstructed ventilation is needed. “Open window” stickers are frequently used to provide visible reminders of open window policy.
  • Adjacency - the distance between carriers and staff or other patients is a risk factor. Congregate areas where patients are sitting close together is an obvious situation and settings where close contact occurs such as during consultation, examination and treatment are risk situations. Narrow bed spacing (less than 1.2 m) presents risk for both fine droplet and droplet nuclei contamination. Multi-bed wards configurations are risk situations.
  • Places where aerosol-generating procedures are undertaken- These are defined as high-risk procedures that may increase the potential of generating droplet nuclei because of the mechanical force of the procedure (e.g. intubation, cardiopulmonary resuscitation, bronchoscopy, autopsy, and surgery where high-speed devices are used) (WHO, 2007)

Total respiratory isolation for TB treatment would be ideal from an infection prevention and control point of view. Several factors make this both impractical and undesirable. First there are negative social and psychological impacts to strict separation including isolation and stigmatisation of patients. Second, nursing requirements, acuity and management dictate that patients must be visible to healthcare workers and accessible to them.

Whilst provision of single bed wards is advisable as far as possible, shared spaces for joint activities are required. Estate legacy constraints (the size and shape of existing rooms), affordability (single-bed wards require a higher capital investment, higher operational and maintenance costs) and nursing acuity constraints (compact configurations allow for improved nursing efficiency) mean that single-bed configurations are not always possible, and it therefore is common practice at facilities in South Africa to provide rooms with two, four, six or more patients.

TB facilities generally experience highly fluctuating patient demographics and needs. Given resource constraints and high demand, it is frequently useful to provide configurations which allow for flexible arrangements which can be administered according to prevailing needs.

Management of patients may require spatial and/ or physical separation in accordance with facility policy:

  • according to gender
  • ostensibly drug susceptible TB – retreatment (treatment failure)
  • Mono-resistant TB (suspected-MDR)
  • Poly-resistant TB (suspected-MDR)
  • MDR TB
  • MDR treatment failure
  • Pre XDR TB
  • XDR TB
  • XDR treatment failure
  • First sputum culture negative result, pending second result (suspected cured)
  • children (with or without boarding parents)
  • patients requiring isolation ( for additional infectious diseases, psychological disturbance, prisoners)

Occasionally facility policy may allow for or require additional accommodation for outpatients, visitors or patients awaiting transfer. This may be applicable to specialised facilities (Centres of Excellence), where family and patients are likely to travel great distances but will not be applicable to Satellite Facilities on the decentralised scheme.

Separation of each of the cohorts described above, especially at long-term care facilities is highly desirable. Generally, at a minimum, separation of gender, paediatrics and XDR patients is required. It is highly preferable to have some accommodation for patients requiring isolation and patients with first culture negative result (suspected cured). Further refinement will be dependent on individual facility policy, size of facility (larger facilities being more complex in nature) and whether it is primarily aimed at acute or sub-acute care.

Administrative control measures must also ensure optimal operation of environmental control measures (see below). This may include assignment of a person to oversee environmental controls, to open and close windows as appropriate, change filters, test environmental control measures periodically, clean UVGI lamps if installed, perform preventative maintenance measures, etc. Whatever environmental control measures are in place, their adequate operation and maintenance should be included in the administrative control measures through the TB Infection Control Plan and their operational parameters and proper function should be evaluated regularly.

Environmental IPC measures

Environmental IPC protection methods should be the second- most prioritised approach, after administrative IPC measures and before personal protection measures (which should be used as measure of last resort). Two broad environmental strategies can be identified: dilution, which results in the reduction in concentration of contaminated particles in a volume of air and disinfection, which is the partial or complete destruction (sterilisation) of micro-organisms in air. Disinfection substances/ processes may be harmful to humans.

Dilution is most easily achieved through maximising air volume through design of large spaces and addressing ventilation, in particular the introduction of “fresh” air from a “safe” source (preferably outdoor air) to continually replenish indoor air as it is exposed to infected persons.

The removal of contaminated air by dilution alone requires extremely large per-occupant ventilation rates to minimise risk. Acceptable levels of room airborne contaminant removal in most South African healthcare facilities cannot be sustainably accomplished by artificial ventilation alone. Its application is limited by engineering constraints and by cost. The professional consultant team is to consider the strategy to ventilation in the following prioritised sequence and only proceed to the next option if the previous is not achievable or not feasible: natural ventilation, mixed mode ventilation and finally mechanical ventilation.

The disadvantages of reliance on natural ventilation for infection control include climate dependence and impact on patient comfort. Yet, the low cost of installation, operation and maintenance should be considered as benefits. The continuous escalation in the cost of electricity and ever-present risk of power outages further support the need to design, wherever possible, for natural rather than artificial ventilation.

The ventilation capacity of any naturally ventilated building is dependent on:

  • Wind direction and profile;
  • Building geometry;
  • Interior obstructions and flow paths;
  • Inner and outer temperature (buoyancy);
  • Type and degree of envelope and building permeability;
  • Adjacent structures and building location;
  • Terrain; and
  • Complimentary ventilation systems.

The successful commissioning of the installed ventilation system depends on the successful completion of the following steps:

  • Definition of performance and functional requirements as identified during the project definition stage
  • Ensuring that the performance and functional requirements are met by the design and specification
  • Validating that the ventilation system performs and functions as intended. An independent authority shall validate the performance and functioning of the ventilation system.

Whereas the requirements of SANS 10400 XA contemplate the limitation of infiltration and exfiltration of air from the building (sealing for energy conservation) a rational design approach must be adopted for natural and mixed mode systems.

Dilution systems

Dilution ventilation refers to any method of ventilation (natural, mechanical or mixed-mode) in which air is encouraged to flow into and out of a space with the aim of reducing the background concentration of airborne contaminants within that space. The complete removal of all M. tuberculosis particles cannot be accomplished by dilution ventilation alone. Its efficacy is limited by engineering constraints as well as by cost and comfort conditions. Unlike odour and temperature control functions for which ventilation and other forced-air systems are designed, the removal of diluted air (still contaminated with infectious particles air) requires extremely large ventilation rates for adequate protection.

According to the WHO Guideline Natural Ventilation for Infection Control in Health-Care Settings (WHO, 2009a), if natural ventilation alone is not able to reliably meet both the recommended ventilation and indoor comfort requirements then alternate ventilation systems, such as mixed-mode ventilation, should be sought. If that too does not meet the ventilation requirements, only then should mechanical ventilation systems be considered.

A summary of the advantages and disadvantages of natural, mechanical and mixed-mode ventilation is provided in Table 2

Mechanical ventilation Natural ventilation Hybrid (mixed-mode) ventilation
Advantages Suitable for all climates and weather with air-conditioning as climate dictates Suitable for warm and temperate climates – moderately useful with natural ventilation possible 50% of the time Suitable for most climates and weather
More controlled and comfortable environment Lower capital, operational and maintenance costs for simple natural ventilation Energy saving
Capable of achieving high ventilation rate
Smaller range of control of environment by occupants Large range of control of environment by occupants More flexible
Disadvantages Expensive to install and maintain. Easily affected by outdoor climate and/or occupants’ behaviour May be expensive
Reported failure rate in delivering the required outdoor ventilation rate Reduces occupants comfort level when hot, cold or humid May be more difficult to design
Potential for noised from the equipment Inability to establish negative pressure in isolation areas, but may be provided by proper design; depends on situation
Potential for noise intrusion
High tech natural ventilation shares some of the disadvantages and limitations of mechanical ventilation

Table 2: Summary of the advantages and disadvantages of mechanical, natural and mixed-mode ventilation systems (WHO, 2009A).

Natural ventilation systems

Natural ventilation is the flow of air through buildings driven by wind pressure and buoyancy forces. Natural ventilation is dependent on climate, building design, occupancy and activity in the building. Controlled natural ventilation is not limited to the strategic positioning, opening and closing of windows and doors to channel air flow in a certain direction. For natural ventilation to be effective as a ventilation solution, it must be considered from the earliest stages of the facilities design development. When developing the design concept for a naturally ventilated building, three basic steps need to be taken:
  1. The desired airflow patterns from inlets to outlets (windows) through the occupied spaces need to be defined. This is closely related to the form, arrangement and management of the building, which in turn depends on the use patterns and even configuration of the site.
  2. The principal driving forces, which enable the desired airflow patterns and ventilation rates (air changes) to be achieved, must be defined and quantified. Certain strategies tend to be wind-driven; others stack-driven. In successful designs, the principal airflow drivers are complementary to the intended flow rate and distribution.
  3. Size and locate the openings (windows) so that the minimum and average required flow rates can be delivered under all operating regimes.

The incorporation of additional openings and devices such as solar chimneys, wind towers, turbine ventilators and wind scoops and cowls may assist the natural ventilation design by encouraging air to flow in a specified direction. These devices could also increase the ventilation rate.

Naturally ventilated healthcare facilities should be designed such that the overall airflow pattern carries air from the infectious patients, to areas where there is adequate dilution, and be exhausted to the outside (WHO 2009a).

For natural ventilation, the WHO recommends the following minimum hourly ventilation rates (WHO, 2009a):

  1. In new healthcare facilities or renovated spaces, an hourly average of 160 l/s/patient in airborne precaution rooms, with a minimum of 80/l/s per patient.
  2. In general wards and outpatient departments (OPD), 60 l/s/patient. The occupancy of general wards and OPDs vary, and this should be considered in the design phase.
  3. In corridors and other transient spaces, a minimum of 2.5 l/s/m3 is required. When emergency medical procedure are performed in these areas , an hourly average of 160 l/s/patient is required for high risk procedures, and 60 l/s/patient for all other procedures.

In these areas the airflow should be from the infectious patients, to areas where there is adequate dilution, and exhausted directly to the outside. If this is not achievable, consideration should be given to mechanical ventilation. Sputum booths should be provided externally if at all possible. Only where this is not possible should mechanically ventilated sputum booth options be considered.

See below for requirements of mechanical ventilation and Annex 1 for mechanically ventilated sputum booths.It is important in natural ventilation design to consider:
  1. the fluctuation rates due to changes in weather in the design of natural ventilation systems (including extremes of wind speed);
  2. building performance in inclement weather;
  3. patient comfort; and
  4. control of drafts in the occupied zone- Air currents in excess of 0.8 m/s in the occupied zone can cause disturbance and discomfort.

Mixed-mode systems

The terms “mixed-mode” and “hybrid” ventilation are used synonymously. They refer to mechanically assisted natural ventilation strategies. Mixed-mode systems essentially extend the capacity of naturally ventilated systems. The two major types of mixed-mode ventilation are:
  1. Complementary mixed-mode ventilation
  2. Zoned mixed-mode ventilation

Complementary mixed-mode ventilation uses natural ventilation and mechanical ventilation strategies at different times of the day, or different seasons of the year, i.e. natural ventilation is used when wind conditions are favourable, and mechanical ventilation is extreme conditions. Complementary mixed-mode ventilation can further be classified as concurrent or changeover. In concurrent operation, the mechanical ventilation system works in the background to the natural ventilation system, assisting where temperature, airflow, or indoor air quality parameters are not met. In changeover strategies, the natural and mechanical ventilation systems work alternately. Seasonal and night-day changeovers are the most common.

Zoned mixed-mode ventilation implies that certain parts of the building use natural ventilation, and other parts, usually specialised areas within the building, use mechanical ventilation. Brown and Huang (2006, p.47) recommends that energy zoning be employed for naturally ventilated buildings. Activities or spaces having similar cooling and occupancy schedules should be located close to each other, so that the same energy strategies can be used in those areas. In this way it is also possible to cluster the areas which will be naturally ventilated and the areas which will be mechanically ventilated. By clustering all the mechanically ventilated areas, air-conditioned air can be distributed more efficiently.

Mixed-mode ventilation systems may benefit from control strategies. These control strategies may be manual or automatic. Automatic controls usually include sensors, actuators and controllers. The control strategy should be triggered if the required ventilation rates are not met. When this happens, the system switches from natural to mechanical. Once climatic conditions are able to deliver the required ventilation rate, the system should be set back to natural ventilation. Control strategies may also be temperature-based, or rain-based, but the required ventilation rates should be met if these controls are employed.

Mechanical ventilation systems

There are certain instances where the use of mechanical ventilation is the only feasible option, an example of which is deep-planned buildings.

In high risk areas, the mechanical ventilation system should, at least, meet the following minimum ventilation requirements:

  1. A ventilation rate of 12 ACH, or
  2. A ventilation rate of 80 l/s/patient of outside or sterilised air.

Criteria 2 is required when considering congregate settings, such as waiting areas and dining halls. Criteria 1 is not relevant where option 2 is achieved. Criteria 1 is not relevant in high volume spaces (>3.5m AFFL).

The system should preferably be a full fresh air system. All air should be exhausted directly to the outside. In the event of a partially recirculating system, HEPA filtration or in-duct UVGI should be considered should there be risk of airborne transmission (patient areas).

Where neither of the points above can be sustainably achieved, the occupancy levels in high risk indoor spaces should be managed to remain below a level that which can be effectively served by the considered ventilation system.

The use of exhaust air filtration in single pass ventilation systems as a means of removing hazardous infectious particles from the room should be restricted to “in-room” filtration. “In-duct” filtration, will not lower the concentration of infectious airborne particles in the occupied zone in which they are being expelled by infectious persons. “In-duct” filtration can only remove the infectious particles present in the incoming air or in air being redistributed to other areas served by the recirculating system. “In-room” filtration can be achieved using portable air cleaners (PAC). PACs may therefore serve as an effective extension to the dilution process provided by controlled ventilation, where the ventilation rates required for IPC cannot be achieved. PACs can be used as a means to increase the contaminant removal effectiveness of the ventilation system (at the cost of increased energy consumption). The law of diminishing returns is applicable to any common intervention applied to reduce the probability of airborne cross-infection. For this reason it is important to quantify the expected gains before renovating, adjusting or augmenting systems.

Given the maintenance requirements for HEPA filtration and in-duct UVGI systems and the inherent occupational health risks associated with their maintenance, these systems should only be used as a measure of last resort in airborne precaution areas.

Where mechanical ventilation systems are used, consider the failure-mode fall-back option of reverting to natural ventilation.

For more detail on airborne contamination control concepts refer to the IUSS:GNS Building Engineering Services.

Disinfection systems

Upper-room air UVGI

According to the CSIR Guidance document: UVGI Disinfection of Room Air: an Evidence Based Guideline for Design, Implementation and Maintenance, 2015 https://www.tb-ipcp.co.za/tools-resources/documents-paper-and-articles , the following irradiance and dose factors must be considered when evaluating the ability of an upper-room UVGI system to kill or inactivate airborne microorganisms:
  • include the sensitivity of the microorganisms to UVGI
  • and the dose of UVGI received by a microorganism
  • the room occupancy levels
  • or population of microorganisms.

UVGI dose is the ultraviolet (UV) irradiance multiplied by the time of exposure and is usually expressed as μW·s/cm2. A appropriatly-designed upper-room UVGI system may be effective in killing or inactivating most airborne droplet nuclei containing mycobacteria if designed to provide an average UV fluence rate in the room in the range of 15 mW/m³ to-20 mW/m³ and provided the other elements stipulated in these guidelines are met. In addition, the fixtures should be installed to provide as uniform a UVGI distribution in the upper room as possible without losing too much fluence to the walls. There is likely an upper threshold where adding more UVGI will not achieve significant increases in inactivation (Xu, et al., 2003).

As the mechanical ventilation rate in a room is increased, the total number of microorganisms removed from the room via this system is increased. However, when mechanical ventilation is increased in a room where an upper-room UVGI system has been deployed, the effectiveness of the UVGI system may be reduced because the residence time of the bacteria in the irradiated zone decreases. Under experimental laboratory conditions with mechanical ventilation rates up to six air changes per hour (ACH), the rate that microorganisms are killed or inactivated by UVGI systems appears to be additive with mechanical ventilation systems in well-mixed rooms. Similarly laboratory studies that UVGI effectiveness changes with modifications to mechanical ventilation rates. Exceeding 6 ACH may reduce UVGI effectiveness although the overall contaminant removal rate may still increase (Xu, et al., 2003).

Upper-room UVGI systems rely on air movement between the lower portion of the room where droplet nuclei are generated and the upper irradiated portion of the room. Once in the upper portion, droplet nuclei containing M. tuberculosis may be exposed to a sufficient dose of UVGI to kill or inactivate them.

When upper-room UVGI systems are installed, general ventilation systems should be designed to provide optimal airflow patterns within rooms and prevent air stagnation or short circuiting of air from the supply diffusers to the exhaust grilles. Also, heating and cooling seasons should be considered and the system designed to provide for optimal convective air movement. Consideration of the drop and throw parameters of selected ventilation air terminals is critical to ensure good mixing under all seasonal conditions.

Most rooms or areas with properly installed supply diffusers and exhaust grilles should have adequate mixing. If f air stagnation is possible, air mixing should be improved by the considered addition of vertical air mixing fans or repositioning the supply diffusers and/or exhaust grills. If there is any question about vertical air mixing between the lower and upper portions of the room due to environmental or other factors, a fan(s) should be used to continually mix the air. In a room without adequate air mixing under experimental laboratory conditions, UVGI system effectiveness increased by up to 72% when a mixing fan was used.

A number of studies have indicated that the effectiveness of upper-room UVGI systems decreases as humidity increases. The reason for the decrease in UVGI effectiveness is not clearly understood. However, the effect needs to be considered in the general context of upper-room UVGI systems.

For optimal efficiency, relative humidity (RH) should be controlled to between 25% and 60% where upper room UVGI systems are installed. This is consistent with American Institute of Architects (AIA) and the American Society of Heating, Refrigerating, and Air-Conditioning Engineers (ASHRAE) recommendations that the RH affecting patient care areas in hospitals and outpatient facilities range from 30% RH to 60% RH. If high humidity conditions are normal, it may be necessary to install a system with greater than normal upper-room irradiance levels.

Recommendations developed by ASHRAE and AIA stipulate that the design temperature for most areas affecting patient care in hospitals and outpatient facilities range from 20 °C to 24 °C. This temperature range is consistent with the optimal use of low pressure mercury lamps that are used in upper-room UVGI systems.

The most common way to generate germicidal UV radiation in lamps used in well-designed upper-room UVGI systems is to pass an electrical charge through low-pressure mercury vapour that has been enclosed in selected glass tubes that transmit only certain UV wavelengths. Care must be used in selecting the correct UVGI lamp for use in upper room UVGI systems. Typically, the optimal wavelength for UV germicidal radiation is 254 nanometres (nm) in the UVC range. UV lamps are made for a variety of purposes that may have a negligible consequence in killing airborne microorganisms. Some UV lamps (such as those used for tanning) radiate energy in the UVA and/or UVB range and over extended periods may have adverse health consequences for exposed persons. Other UV lamps are designed to emit radiation at 184.9nm and produce ozone, which is hazardous to humans even at low concentrations. Low-pressure mercury lamps should be rated for low or no ozone generation. Since all lamps must eventually be discarded, each lamp should contain only a relatively small quantity of mercury (i.e., 5mg or less).

In upper-room UV irradiation, fixtures containing UVGI lamps are suspended from the ceiling or installed on walls. The base of the lamp is shielded to direct the radiation upward and outward to create an intense zone of UVGI in the upper air while minimizing the level of UVGI in the lower (occupied) portion of the room or area. The height of the room must be considered in the design of an effective system.

A professional who is knowledgeable in upper-room UVGI systems design and installation should be consulted before procurement and installation of the system. The number of persons competent in the design of upper-room UVGI systems is normally limited.

Persons who may be consulted include engineers, industrial hygienists, and radiation/ health physicists. A mechanism to provide training certification for system designers should be developed and based on the guidance document UVGI Disinfection of Room Air: an Evidence Based Guideline for Design, Implementation and Maintenance.

Once the number and types of UVGI fixtures appropriate for the room or area have been determined, the fixtures need to be appropriately installed. Installation guidelines are provided in the Environmental Control for Tuberculosis: Basic Upper-Room Ultraviolet Germicidal Irradiation - Guidelines for Healthcare Settings document and the guidance document UVGI Disinfection of Room Air: an Evidence Based Guideline for Design, Implementation and Maintenance. Only qualified service technicians who have received training on the installation and placement of UVGI lamp fixtures should install the systems. Following installation UV lamps require on-going maintenance and frequent replacement, by suitably skilled technicians. This consideration may be a limiting factor in the use of the solution.

Personal protection measures

In addition to administrative and environmental control measures, the recommended personal control measure for protection of the healthcare worker, from inhaling infectious droplets in high-risk DR TB settings, is the use of respiratory protective devices. These are designed to fit over the mouth and nose and filter out infectious TB particles.

Respiratory protective devices for healthcare workers that are capable of adequately filtering out infectious particles are more expensive than surgical or procedure masks. Nevertheless, their use in high-risk DR TB settings is strongly recommended, particularly in high burden HIV settings where many healthcare workers may be HIV infected. Respiratory protection should be used only when all other administrative and/or environmental control measures are fully implemented. Acceptable respirator types meet the performance requirements outlined in table 7, and include:

  • SANS 50149 FFP2/3 respirators
  • CDC - NIOSH N95 respirators

The use of N95 respirators should be used with caution in South Africa as there is no framework of compulsory standards and regulations controlling their use. The user may therefore not be adequetly protected from fake devices. The National Regulator for Compulsory Specification (NRCS) has published a homologated database of FFP2/3 devices compliant with SANS 50149.

http://www.nrcs.org.za/siteimgs/CMM/Homologation%20Database%20-%20PPE.pdf

Surgical (also called procedure) masks, in accordance with SANS 1866, may be worn by patients in order to prevent the dispersion of respiratory droplets and to reduce formation of droplet nuclei. Surgical masks do not adequately prevent airborne particles from being inhaled by the wearer. SANS 1866 Type 2 surgical masks should be used with caution as they resemble N95 or FFP2/3 respirators and may be easily confused with the latter.

An analysis of the facility design should be made in respect of where provision for personal protective equipment PPE should be made available. These include:

  • protective eyewear (for UV device maintenance)
  • respiratory protection (typically respirators for healthcare workers, cleaning and maintenance staff, visitors), and
  • surgical masks (for patient use).

Dry, secure storage of bulk PPE supplies conveniently located close to points of use should be provided. As respirators are costly and personalised (respirators cannot be shared) secure hanging/ drying facilities clearly marked to avoid confusion are recommended. Stations are required for daily PPE supplies and for disposal facilities (bins) for discarded masks and respirators.

Planning and design principles

For specialised TB services long-term accommodation, the project planning, design, construction and commissioning should aim to provide:
  • a safe, secure and functional environment for patients and staff;
  • optimal accommodation and support for long term patient stay;
  • low capital and on-going operating costs (service, staffing and maintenance);
  • an environmentally appropriate design solution; and
  • a fully accessible, inclusive environment.

Patient profile

There are known risk factors associated with an increased likelihood of contracting TB, including DR TB and increased risk of latent disease manifesting in active TB. Patient profile and demographic data are not systematically kept in South Africa, though there appears to be an uneven and fluctuating distribution. Relatively poor socioeconomic groups may be more vulnerable to DR TB infection, but it can (and does) affect anyone regardless of age, gender, race or socioeconomic circumstance. The strong correlation between HIV and TB has been noted. In addition, globally, an increased risk is associated with malnutrition, heavy smoking, silicosis, diabetes mellitus, Hodgkin lymphoma, end-stage renal disease, chronic lung disease, and alcoholism.
Figure 5: Changes in the number of TB notifications in a sample South African community, stratified by age, 1996 - 2004 (Lawn, et al., 2006, p.1043)
Figure 6: Total number of TB notifications between 1996 - 2004 in a sample South African community, stratified by age and sex (Lawn, et al., 2006, p.1043)
Isolated research studies (whose findings may not be generalizable) in South Africa found that TB incidence and prevalence per gender varies with age (see Figure 5). TB incidence was highest in the population group aged 30-49 years, which is the economically productive age group with highest number of dependants. 11% of cases were in children. In the study there was a significant increase in TB among adolescents, especially girls, between 1996 and 2004 (see Figure 6: Total number of TB notifications between 1996 - 2004 in a sample South African community, stratified by age and sex Reflecting the global situation, TB affects more men than women.

Some population groups, such as prisoners and miners are at increased risk of contracting TB.

Patient-centred care

Hospitalisation for DR TB places a unique demand on infrastructure. During their stay patients may become either very ill and in need of hospital acute care, to being well or feel quite well only requiring supervised medication. In order to support patient care, part step-down quasi residential-type accommodation should be provided, so that patients who are feeling well can feel “at home”; and part hospital-type accommodation should be provided, in areas where direct staff supervision is possible.

There is strong evidence from research studies which describe the importance of health facility design as a means to improve health outcomes (Ulrich, et al., 2008). The more supportive the environment is, the less chance there will be of admitted patients absconding and infecting others in the community while still in an infectious stage of the disease. Environmental factors such as large windows with high levels of daylight, views of nature, low noise levels all reduce stress and depression and promote healing. Some visual and acoustic privacy (screening for confidential/ personal activities in counselling, consulting and ward areas) promotes patient dignity. Personal choice and control over heating, lighting and furniture layout instils a sense of empowerment.

Safety

There are several aspects of risk that should be addressed by the consultant team. They include: infection prevention and control (for airborne and other modes of transmission) slips and falls, fire, and UV exposure. Only the most likely and critical of risks have been addressed in this document.

Isolation

Distinction can be made between five types of segregation:

  • Separation – patients are housed in single room accommodation though they may not be self-harming or violent.
  • Negative pressure room applied to infectious patients, with airlock ante-chamber (e.g. TB patients).
  • Positive pressure isolation room applied to immuno-compromised/ susceptible patients, with airlock (e.g. burns patients).
  • Duel-function isolation – with controls to convert from positive to negative pressure according to current room occupancy, with airlock. This is discouraged due to complexities in designing and operating these and due to increase risk in accidental incorrect use.
  • Seclusion (Social isolation) – for patients who are self-harming or violent. A room with high level of security which complies with national norms and standards for psychiatric care facilities. Airlock not required.
  • Barrier isolation – patients are housed within a chamber constructed of an impermeable barrier and typically ventilated through HEPA filters. Decontamination airlocks and material transfer chambers are included in the system. These types of systems are exclusively used for suspected P4 level pathogens, and are not indicated for use with TB patients.

When briefing professional consultant teams, it is important to convey where each of the above is required. For TB, infection control is useful and usually all that is provided. For further information on Isolation rooms, the reader is referred to the IUSS Adult In-patient Services guidance document. https://iussonline.co.za/norms-standards/clinical-services

Infection prevention and control

The most critical aspect of risk in the design is from the point of view of airborne infection control. This aspect has been addressed in detail in previous sections (for airborne infection) and in the. Refer to IUSS:GNS Infection prevention and control.

Slips, trips and falls

Slippery floor surfaces should be avoided, particularly externally. Contrasting colours should be used at changes in floor level to assist visually impaired persons. Adequate lighting, handrails and guardrails should be provided. External paving areas should be well drained.

Alarms and fire alarms

In addition to the usual compliance requirements, it should be noted that as deafness is a common side-effect of TB treatment regimes, all sounding alarms including fire alarms should be supplemented with visible alarms in patient areas e.g. red or yellow flashing lights to accompany fire or emergency evacuation alarms.

UV exposure risk

Where ultraviolet radiation germicidal irradiation (UVGI) is contemplated, due consideration must be made to potential adverse health effects on patients, staff (including maintenance staff) and visitors. For convenience the UV spectrum is described in three different wavelength bands: UVA (long wave lengths, range: 320–400 nm), UVB (midrange wavelengths, range: 290–320 nm) and UVC (short wave lengths, range: 100–290 nm).

UVC is unlike UVA and UVB, as it has extremely low penetrating ability. It is nearly completely absorbed by the outer layer of the skin (stratum corneum), where little or no harm is experienced. Although listed as a potential carcinogen for man, UVC is unlikely to be carcinogenic or to cause skin or eye irritation (keratoconjunctivitis) if applied correctly within exposure limits as set out by the International Radiation Protection Agency (IRPA) and other international health bodies.

Since open UVGI devices are principally designed to emit a certain amount of UV-c radiation, these devices cannot be considered to be intrinsically safe. The UVGI system should be designed to achieve the maximum system output and maintain the lowest reasonable exposure levels in the occupied zone of the room.

The primary safety concern with UVGI in controlling eye exposure to prevent irritation, limits the irradiance limits achievable in the occupied room.

Safe Exposure Limit

The occupied rooms considered for UVGI should not exceed an exposure dose below 6 mJ/cm² (for mercury vapour lamps at 254 nm 15) and 3.8 mJ/cm² (at 265nm) per 8h.

Therefore, in the typical application of 254nm devices, occupant exposure shall not exceed 0.40µW/cm² for a period of time equivalent to 4 hours per work day. If exceeded, steps must be taken to reduce the effective irradiance dose to less than 6.0mJ/cm2 for the total duration per day.

It becomes important to consider the actual nature and usage of these spaces to determine appropriate safe exposure rates. In determining these rates, occupancy factors such as the eye level of regular occupants, position of occupants (seated, standing, lying down), frequency and duration of exposure, need to be determined and incorporated. Therefore different areas or rooms will require different safety limits.

Areas such as passages and wards would therefore demand vastly different safety limits from each other.

The economic considerations of infection control suggest that high risk areas be given priority for air disinfection. These areas will be determined through the outcome of a comprehensive risk assessment of the facility. Installation of open UVGI devices in stairwells is not considered safe practice as there is seldom sufficient soffit height for an effective upper room zone. Where passages are used as return air plenums in recirculating ventilation systems, these passages shall be considered for air disinfection.

Reflections into the Lower Room

The potential of high UV intensities being reflected into the occupied room must be considered by designers and users. Certain materials and surfaces that reflect visible light might also reflect UV-c light; for example consider reflectors of regular open luminaires, windows, exposed ducting and metallic or high gloss architectural finishes in the upper room.

Security

In the South African context, there is considerable store in balancing security needs, so that patients and staff feel that their person and their personal belongings are protected from harm. Detailed guidance is provided in IUSS:GNS Security.

Inclusive design

In accordance with the Constitution of South Africa, Occupational Health and Safety Act, the Promotion of Equality and Prevention of Unfair Discrimination Act and the UN Convention on Rights of People with Disabilities, Universal Design is a key requirement for all public buildings in South Africa. Refer to IUSS:GNS Inclusive environments.

Holistic care

DR TB facilities must accommodate patient care, dignity and wellbeing. Medical and accommodation needs are clearly the minimum and most critical aspect that must be addressed by the facility. However the accommodation needs for long-term care must address patients’ needs in a more holistic way.

Balanced service provision

Some of the identified problems related to long-term patient needs are isolation of economically active sufferers from their working environment, and interruption of schoolwork in children. The provision of education and development programmes for adults and children alike (library and multi-media facilities have the potential to reduce isolation, stigmatisation, and to contribute to a positive frame of mind) are therefore just some of the issues that can be addressed via facility design. A small business hub with information communications technology (ICT) connectivity may be provided to assist patients who may need to keep their businesses running while under treatment. Both indoor and outdoor recreational activities and other opportunities for physiological, psychological and spiritual needs during this extended stay should be provided in the facility. The provision of patient support accommodation and social counselling and support (visits from relatives and friends) is essential to promote a sense of wellbeing and purpose. Allied health services such as pharmacy, and rehabilitation therapy (occupational therapy, physiotherapy, and social work) play a critical role in supporting whole-patient care. Treatment side effects may include hearing loss, so that provision of audiology booth for regular testing is useful. Screened, covered and well-ventilated sputum booths should be provided in close proximity to clinical areas for production of sputum samples. These may be equipped with a hand-wash basin, a shelf and a plug point, to allow for nebulisation. Chest (and other) x-rays need to be taken, therefore provision of x-ray facilities with appropriate radiation protection should be provided.

Given resource constraints, it is not always possible to invest in the full complement of these facilities at DR TB centres in one capital investment. However, as each potentially adds to quality of care that can be delivered, which leads both directly and indirectly (say, through preventing absconding) to improved health outcomes, best practice recommends that these aspects be addressed as fully as practicable. It is useful to produce master-plan proposals, within a phasing framework so that a full complement of services can be provided over time, and so that short term development does not compromise medium and long term development potential.

Patients in some DR TB settings are permitted to prepare their own meals, but this is unusual practice and is usually optional and reserved for patients who are pending discharge. Policies in terms of meal presentation and delivery vary between institutions. Three basic modes of delivery include a pre-plated service delivered to the patient bed. The second mode is a tray served at a dining table and the third is a buffet-style service. As meal preparation services are frequently outsourced, the first two modes of delivery are most commonly found in South Africa. Dedicated dining facilities are not always available, so that meals must be served at patients’ bedsides or lounge areas (if provided). Bedridden and ill patients may be unable to use formal dining facilities. International studies in long-term care facilities have shown that there are increased appetite, nutrition and patient satisfaction in communal dining settings, and particularly with buffet-style eating. However these studies have primarily been undertaken for the elderly. Similar studies have not been undertaken in South Africa or for TB patients. To complicate matters, patients in communal dining settings are unable to use personal protective equipment, raising risk at these encounters. Nevertheless it is recommended that patient formal dining facilities be provided for and that they are treated as high risk areas in terms of infection control.

Facility policy may provide that patients in long-term care facilities are encouraged to participate in cleaning, laundry and gardening activities.

Healing environments

International research into evidence-based design has concluded that well designed built environments can play a critical role in improving healing outcomes. Infrastructure has an important role to play in this respect. Long-term DR TB care facilities should not only address the needs of patients and their families, but also the needs of healthcare workers.

Occupant comfort

While ventilation is of significant importance to maintain effective infection control within the healthcare buildings, one of the most critical aspects of patient recovery is adherence and completion of their treatment regime.

Buildings should be designed so that comfort conditions in indoor environments can be achieved irrespective of climate conditions, bearing in mind that TB sufferers are typically very underweight and may have little tolerance for cold. The climate may require supplemental heating to achieve comfort conditions in winter without compromising the ventilation requirements. The operational constraints of the hospital (in terms of maintenance and operational costs as well as environmental impact) mean that fully air-conditioned or heated wards are usually not desirable either.The ISO standard 7730 provides a measure of thermal comfort based on the predicted mean vote (PMV) method. The ASHRAE 55 Thermal environmental conditions for human occupancy guide provides methodology for measuring comfort conditions, including provision for naturally ventilated buildings. It is proposed that these form the basis of the design assessment relating to thermal comfort.

The ventilation and comfort control design must weigh up these competing requirements to provide an optimal indoor environment (ventilation and thermal comfort) while bearing in mind the operational impacts on the hospital in the long term. As such, the following metrics should be used to demonstrate an optimal balance of ventilation, thermal comfort and operational costs:

  • Proportion of hours where the targeted ACH rate is achieved (currently 160 l/s per person for naturally ventilated areas)
  • Proportion of hours where either:
  • PMV levels between -1.0 and 1.0 are achieved; or
  • Acceptability limits of ASHRAE Standard 55, 2004 are achieved within 80% of acceptability limit 1
  • Predicted operational costs (energy use and maintenance)

The decision-making with respect to the mechanical or naural ventilation system or other systems relating to thermal comfort should take all these into account.

Staff: patient ratios

According to the Decentralised Management of Multi Drug Resistant TB – a Policy Framework for South Africa, a provincial/ centralised MDR TB unit requires the following minimum staffing levels. This should be cross-referenced against the WHO Document “Workload Indicators of Staffing Need” (WHO, 2010) which has been formally adopted by the NDoH:
Doctor 1/40 beds
Professional nurse / Staff nurse or Nursing Assistant 4/ 11 per 40 beds
Pharmacist            1 per 100- 200 beds
Social worker 1 for > 40 beds
Dietician 1 for > 40 beds
Clinical Psychologist 1 for > 40 beds
OT 1 for > 40 beds
Audiologist 1 for > 40 beds
Physiotherapist    1 for > 40 beds
Data Capturer/ Admin Clerk 1 for 100- 200 beds
Driver 1 for > 40 beds

Table 3: Sample Organisational Development Investigation the following staffing complement per 30 bed functional unit (courtesy Brooklyn Chest Hospital)

OFFICE: ADMINISTRATION NUMBER OF POSTS COMMENTS
Administration clerk 1
CLINICAL SERVICES
Medical officer 1
MEDICAL AUXILLARY SERVICES
Physiotherapist Central services
Occupational therapist Central services
Social work Central services
Dietician Central services
Audio/speech therapist Central services
Clinical Psychologist Central services
Radiographer Central services
Pharmacist Central services
Counsellor Central services
NURSING SERVICES
ASD nursing area Central services
Operational manager nursing 1
Professional nurse 4
Staff nurse 4
Auxiliary nurse 8
Housekeeping supervisor 1
Household aid 6
NIGHT DUTY MANAGEMENT
Night duty manager 1 Central services
Professional nurse 1
Staff nurse 3
Auxiliary nurse 2
Household aid 1

Supporting the caregiver

Recruitment, retention and productivity in staff

International research has shown that infrastructure has a part to play in staff recruitment, retention and productivity. South Africa has been experiencing an extended challenge in respect of attracting and retaining qualified healthcare professionals. This challenge is particularly marked in TB–specialist skills because of the additional risk. This risk is not merely perceived. Healthcare workers generally and TB-specialists specifically are exposed to higher risk of infection and higher infection rates than the general population.

Staff is thus a critical factor to take into consideration when DR TB planning facilities. In particular the provision of safe working environments:

  • which address risk from an IPC perspective in a way which is explicit and reassuring;
  • which provides for physical safety against violent/ disturbed patients; and
  • which allow adequate safe storage for personal belongings.

Provision of staff housing, recreation facilities and other staff amenities may be an attractive benefit.

Additional personnel considerations

From an infrastructure point of view, it is critical that maintenance posts are established and filled with incumbents who are appropriately skilled to address the specialised needs of DR TB facilities, infection control and healing environments. As with healthcare workers, there are challenges in attracting and retaining skilled artisans, engineers, and health facility specialist maintenance staff, particularly in environments perceived to be high-risk.

While the most significant factor in staff recruitment and retention is salaries and benefits, especially in relation to many overseas destinations, many experts emphasize that pay is not the sole motive for leaving the South African public service. Other factors include poor work environments characterized by heavy workloads, lack of supervision, and limited organizational capacity. There are also environmental considerations; workplaces may be dangerous due to condition, functional or environmental design, or there may be a lack of supplies to protect workers from occupational exposure to diseases like tuberculosis.

Site appraisal

Where feasible the principle of redevelopment and reuse of existing buildings should be investigated before building new buildings. As a first stage in providing a comprehensive appraisal of the site, the consultant team should collect, collate and prepare a full assessment of accommodation and engineering services at the existing site including:

Building layouts

  • existing buildings with measured footprint and scaled spatial layout on site plan;
  • current functional allocation (use) of existing buildings;
  • level of utilisation of buildings;
  • national monument status;
  • building condition assessment (high level and quick professional estimate on scale one condemn to five as new);
  • evaluate of the level of accessibility of proposed new structures and linkages to existing buildings; and
  • evaluation of existing pedestrian and vehicular routes (i.e. staff, visitors, and service vehicular and pedestrian routes) to determine optimum layout of proposed new buildings.
A coloured site map should be prepared by the consultant team using the coding provided below to visualise the suitability of the existing building stock (see figure 8) and the condition of the existing building stock (see figure 9).
Figure 7: Recommended suitability coding for site appraisal
Figure 8: Recommended Condition Assessment Coding For Site Appraisal

Site Information

  • Major landscaping, trees and features;
  • Site access points for staff, patients and service personnel and access constraints;
  • Existing fencing and level of security provided;
  • Service connection points, main service runs, water tanks (as they are currently being constructed), transformers, substations, generators, etc.; and
  • Flood lines, water table levels, site storm water drainage and general potential for flooding.

Engineering and bulk services

Engineering services
  • Power: Analysis of existing power supply – types, current load, reliability, capacity, potential for expansion,
  • Water supply: Analysis of existing water supply – source/s, storage, condition, current and projected demand,
  • Sewage: Analysis of existing sewage reticulation and disposal system, connections, capacity, condition, current and projected load,
  • ICT services: Telephones, internet connectivity, intranet connectivity. Analysis of existing supply – types, load, reliability, capacity, potential for expansion,
  • Other services as identified by consultant team (gas, steam etc.)

It is recommended that the photographic survey of existing infrastructure be compiled by the consultants.

Climatic and sustainability considerations

Prevailing climate conditions should be taken into consideration during the design process. The closest freely available (open source/ public domain) or alternate annual and diurnal temperature, rainfall, wind-speed and direction data should be collected, analysed and used in addressing building performance and patient comfort objectives (see Figure 10). Material specifications and details should address corrosive attributes associated with proximity to the sea.

Rational peak demand of electricity use and demand management systems should be considered in the design and specification. There should be a split between essential and non-essential electricity use, and emergency backup should be provided for essential services. Separate metering for water and electricity should be provided for the new unit. Refer to IUSS:GNS Sustainability and the environment.    

Future development

Future development for the site should be studied. The consultant team is to provide evidence that a very high level study has been undertaken to ascertain whether or not the proposed facility will likely compromise, limit or enable the proposed development through appropriate means (such as crude scale block positioning on site). The implications of the project on future development should be discussed in an open forum with stakeholders. Consideration should be given to the optimal positioning and size of central services to satisfy the future demand of the hospital site.

Additional Project Studies, Approvals and Requirements

Environmental Impact Assessment (EIA)

An Environmental impact assessment (EIA) may be required.

Local authority submissions

The following approvals must be provided, as stipulated by the local authority:

  • A site development plan (SDP);
  •  A copy of a set of working drawings;
  • A traffic engineer’s report; and
  •   A fire department.

Phasing and decanting

Where the project calls for a construction project to be conducted within an existing functional healthcare environment, phasing and decanting plans are required. The appropriate precautionary measures should be taken. Refer to IUSS:GNS Decommissioning. The services currently provided for at the hospital must continue with as little disruption as is reasonably possible. Phased construction and/ or temporary decanting of functions may be required. Should decanting activities be required to accommodate the construction project, then this activity should be planned timeously with all stakeholders’ involvement under the leadership of the briefing authority (or if defined as extraordinary scope of services, principal agent, contractor or other clearly identified party).

Commissioning and validation

Refer to IUSS:GNS Commissioning.

Post-occupancy evaluation

At one year from practical completion date a post-occupancy evaluation is recommended. All participants in the planning, design, construction and commissioning of the new facility will be required to participate in a half day on-site assessment on whether the project objectives where met. Feedback should be provided to the briefing authority and custodial agent to inform future building projects.

Operation and maintenance manual (O&M)

The consultant team is required to prepare an operations and maintenance manual for the hospital management and the custodial agent for presentation at practical completion.  The requirements regarding the content of this document will be determined by consensus at a focus meeting with stakeholders to be convened by the principal agent during the construction phase of the project. As a recommendation these manuals may contain the following information:

General information

  • Description, make, model number of all equipment installed; and
  • Contact details of suppliers and /or manufacturers etc.

Design information

  • Design data sheets, containing all design and selection parameters, calculations, selection curves, etc.;
  • Settings and values recorded during commissioning;
  • Manufacturer's brochures and pamphlets;
  • Maintenance data and schedules;
  • The lapse of time between services and the description of the service required of each part, lubrication requirements, etc.;
  • Schedule of spares; and
  • A complete electrical equipment schedule.

These will include the description, make, model number, rating and other performance criteria, commissioned (default) settings, including all brochures, pamphlets and maintenance requirements.  Names and contact details of supplier and manufacturer.

Detail description of the operation of the electrical, mechanical and control systems including the design information, manufacturer’s brochures and pamphlets, settings and values recorded during commissioning, maintenance data and schedules. Complete sets of:

  • as built drawings";
  • architectural work drawing;
  • structural drawings;
  • site works drawings;
  • electrical reticulation drawings;
  • mechanical installation drawings (i.e. all workshop and equipment layout drawings required for the manufacture and erection of the installations); and
  • instrumentation/control drawings, such as schematic control diagrams and electronic/ electrical layout drawings.

Operational narrative and user room requirements

Daily Schedule

Table 4: Sample: Current daily activities at long-term care facility

TIME ACTIVITY VENUE DESIGN IMPLICATION
5:00 Patients are woken up, urged to complete ablutions, and dress.

 

Wards Each patient will have his own bedroom and adjoining bathroom.

Each bed will have an adjacent cupboard for clothes and possessions, and space for a bedside table.

Patients to produce sputum Sputum booth 1.Monthly sputum samples taken from  relevant patients
07:00 Nursing on day shift attend a handover meeting with night staff. This includes discussing problems, and planning activities for the day. Nursing station The nursing station is a general area where much clinical information is shared between staff and between disciplines and is a separate area in the ward. Secure cupboards (and a safe), under desk shelving and notice board space are required.


The location of the nursing station should allow for a clear view of most of the ward (through transparent barriers/windows) and it should be as centrally placed as possible. It should accommodate up to 6 people, and be accessible to the offices of the other members of the team. Lock-up cupboards, computer points, telephone; nurse call control panels should be operated from here. In this ward the nursing station should provide a central place in terms of staff efficiencies.

Matron’s office While office should be separate from nursing station due to space requirements, easy communication and visible access should be available. Built-in office furniture with network points, plugs, telephone, filing space, lockable cupboards, enough space for at least three filing cabinets, appropriate storage and availability for ward stationery (some open and others locked), additional filing workspace, provision of pigeon holes for each for each patient file board, key cupboard.
7:30 Daily injection given to patients Procedure room Nurses prepare injections according to medicine chart per individual patient.

The room requires a clinical hand-wash basin with clinical taps, lock-up cupboards, worktops, a patient couch, good lighting

08:30 Breakfast and issuing of medication Dining hall This adjoins the kitchen and food delivery area. The nursing station should be nearby so that medication and general nursing tasks can be co-ordinated efficiently.


Food will be brought from a central kitchen located elsewhere in the hospital, but facilities for re-heating and to make hot beverages need to be available.

As patients mostly will proceed to the dining area from various other activity areas (sleeping, clinic, recreational, OT etc.) it will have to be in a central location, easily accessible from other patient areas.

Food must be delivered through a dedicated staff access point that allows for minimal patient contact.

09:30 – 12:30 Therapeutic activities
Medical officer

The ward will have at least one medical officer.

Consulting room


These should have enough space for interviewing at least 3 people, as well as a desk, examining coach and x-ray box.


Occupational Therapy (OT) Games room and lounge During the day most patients will be allowed to attend the OT programme.
Psychologists & Social Workers

Interviews, psychotherapy and counselling with patients or their families (often together) occur daily, usually by appointment.

Counselling rooms


Each office will need built-in desks, computer and telephone points, and secure storage space.
12:30 – 13:30 Lunch and using of medication Dining hall
13:30 – 14:00 Rest period


General rest areas Some patients may retire to their rooms for a brief period, but most will be in general areas (lounge, restricted outdoor areas).
14:00 – 16:30 Continuation of many morning activities
Sport and Recreation Outdoor field These patients will have easier access to outdoor areas.


Indoor group area For use for group leisure.
Lounge A comfortable furnished area containing a TV, board games (such as Kerem). This area has to be fully visible from the nursing station. Public telephones should be situated nearby. It may be helpful if this was close to the dining area.
Visiting

Families, friends (and occasionally others) are allowed to visit during two afternoons per week and each evening between 19:00 to 20:00

Visitors area Although visiting times are regulated, families here have easier access to the patients, and there does not have to be a strict separation between patients and visitors.
16:30 – 17:30 Supper


Dining area Activities as for other mealtimes.
17:30 – 19:00 Leisure time Lounge Access to enclosed courtyards allows patients to smoke and relax in the restricted outdoors before retiring to sleep.
18:00 Nursing handover to night staff


Nursing station The same as in the morning
19:00 – 21:30 Preparation for sleep

Dispensing of night medication

Lounge and sleeping areas Usually a snack and hot drink is given to patients. Many watch TV, others socialise or smoke (the latter activity will take place in designated courtyard areas that adjoin onto the ward, but without direct access to the general campus area).
22:00 – 07:00 Night activities


Sleeping areas,

Nursing station

User room requirements

Refer to IUSS:GNS Generic room requirements and IUSS:GNS Primary healthcare.

TB outpatient services

Discharged patients need to be seen for follow-up visits in their communities or at facility-based outpatients department (OPD) usually every two months or so.  Treatment for newly diagnosed and uncomplicated MDR TB and TB patients is typically initiated by clinical staff at OPD, and in accordance with policy decentralised management of TB treated in the community. Complicated cases and XDR patients may be admitted into the inpatient accommodation units through the OPD unless a dedicated admissions facility is provided.

Paediatric patients may be seen for follow-up at paediatric wards or at the general OPD, depending on organisational structure. In small facilities the outpatient department can share clinical support services for inpatient care. Depending on patient loads and institutional preference, a dedicated OPD can be provided with similar facilities to clinical inpatient and support services.

Care should be taken to avoid enclosed congregate settings (such as waiting areas) where possible. Where these are required, they should be regarded as high risk for airborne contamination.

Consulting room

The consulting room is used by doctors and nursing staff for interviewing and examining patients, and to prescribe treatment for their condition. The doctor or certified nurse practitioner discusses the patients’ symptoms and records her case history.  The patient sits on a chair during this stage and if a physical examination is necessary, lies on an examination couch.  Once on the couch, the doctor or certified nurse practitioner examines the patient standing on the patients’ right hand side using medical supplies and instruments on an instrument trolley placed next to the head of the examination couch.  The doctor or certified nurse practitioner may dispense medicine or instruct the patient to proceed to the treatment room for further medical treatment.  Privacy is required during the consultation.

One consulting room should be provided per 30 patient beds or part thereof. The consulting rooms should be standard size. The consulting rooms requires a clinical hand-wash basin with a soap dispenser and paper towel holder, a desk and chair, two patient chairs, an examination couch with a curtain screen, a place to hang clothing, examination lights, access to shared x-ray viewing facility, wall mounted blood pressure monitors, telephone and computer and network connectivity. The room must have a desk with cupboard for the nurse/clinicians’ own personal belongings and a cupboard for standard forms.  A separate cupboard must be in this room to provide for equipment and medicine necessary for procedures. Each room must be provided with a pinning board 900 x 900. An examination couch with an exam lamp is to be provided. Provide space next to the couch for a medicine and instrument trolley. Curtain tracks should be provided around the examination couch for visual privacy for patient being examined, if appropriate.

Counselling room

The counselling rooms must be the same size as the consulting rooms and correctly handed for use as consulting rooms should the need arise. The counselling rooms require a desk and chair, with telephone, shelves, IT and a network point, clinical hand-wash basin, soap dispenser and two easy chairs for counselling purposes.

Diagnostic radiology services

Diagnostic radiology services (chest x-rays) of all patients may be routinely required for diagnosis, during treatment and in follow-up. Baseline x-rays of all the staff and annually as part of the hospital’s infection prevention and control programme. Diagnostic radiology should be provided on-site or at a nearby referral facility. Refer to IUSS:GNS Diagnostic radiology. Mobile x-ray services are a suitable alternative where fixed radiology equipment is not available and if not provided at a nearby referral facility.

Sputum collection and induction

Sputum collection is a process whereby a specimen of sputum, liberated from the lungs, is collected. In many adults this process is readily achieved, however, in younger children and adults who cannot liberate sputum spontaneously, sputum induction is performed. Sputum induction is a process whereby sputum is liberated from the lungs using sterile water or hypertonic saline to irritate the airway, which promotes coughing, to produce a sputum specimen (Francis J Curry National Tuberculosis Centre, 1999).

It is advised that sputum collection be conducted in an area which provides privacy, for patient dignity, but also conducted under observation of a clinician, should the patient go require support and in order to ensure sample integrity (that the sputum is from the individual). As sputum collection is a high risk procedure, good administrative and environmental control measures for the designated sputum collection area is essential for the safety of healthcare workers and patients.

The functional area for sputum collection should comprise a covered area, clinical hand-wash basin, soap dispenser and counter top and, if sputum induction is performed in the same space, a splash-proof power point for a nebulizer.

Sputum collection should be performed in a designated area. At naturally ventilated primary healthcare clinics and community healthcare centres, or any other single-storey naturally ventilated healthcare establishment, sputum collection should preferably be performed in a designated outside area. The “sputum booth” should be positioned within view of the nurse’s station, but should be at least four meters away from the nearest building. Sputum should not be collected in patient toilets or consulting/counselling rooms.  Details of an outdoor sputum booth are available in ANNEXURE 2.

In a mechanically ventilated healthcare facility, rooms having characteristics of airborne infection isolation rooms (AIIR) can be used for sputum collection. These rooms should be ventilated with 80 L per second per person of outside air or the requirements of the National Building Regulations, whichever is greater (SANS 10400 Part O, Table 2, as amended) and are to be maintained at negative pressure relative to the adjacent space, with a pressure differential in the order of -5 Pa. These rooms should preferably be served by full fresh air systems, or in the case of recirculating systems, the exhaust air should be HEPA filtered (EN1822 H13).

Special, purpose-built sputum booths, also referred to as Local Exhaust Ventilation (LEV) devices can also be used for sputum collection. These devices may be portable, where they are beneficial in multi-storey healthcare facilities, where a single sputum booth can be used for the whole facility. Details of a mechanically ventilated sputum booth are available in ANNEXURE 1.

A patient is seated in a chamber where he/she produces a sputum specimen. Fresh air, preferably filtered, is supplied overhead, and exhausted from the chamber at low level. The exhaust air is passed through an H13 HEPA filter to remove the airborne contaminant, and is passed back to the room.  To ensure the chamber is safe for the next patient, a time-lag between one patient and the next should be calculated and stipulated, based on the validated clean-up rate of the sputum booth (SANS 14644-3). Downflow booths are preferred as this provides the most efficient contaminant removal. For reliable operation, downflow velocities of 0.35-0.45 m/s should be maintained in the booth with the door closed.

Figure 9: An illustration of local exhaust ventilation device (sputum booth)

To ensure that AIIRs and LEVs operate as designed, a good maintenance plan is essential. This involves maintenance of pre-filters and HEPA filters, general ventilation maintenance, and standard daily checks to ensure downward and inward airflow is maintained. These checks are simple, and may be performed with incense sticks or smoke /vapour generating ventilation tubes. Maintenance is critical in LEVs, as failure to maintain the device operating as designed could result in contaminated air being passed into occupied zones. Since ducted UV lights can fail catastrophically without any indication, it is not recommended that the HEPA filters considered for LEV systems be substituted with only in-duct UV lights.

Where sputum collection or induction is performed, signage informing patients about the associated procedure should be considered. This should include:

  1. Instructions inside the sputum collection booth about the sputum collection procedure.
  2. Time-lags between patients producing a sputum specimen in the same booth.
  3. Reminders to healthcare workers to wear respirators in the sputum collection area.

Pharmacy

Pharmacist and assistants pharmacists are required to prepare and dispense medication, and manage medicine stock for inpatient and outpatients services. Refer to IUSS:GNS Pharmacy. The pharmacy may be responsible for community outreach programmes for community-based care and may be responsible for distributing medication to downstream referral facilities.

Laboratory services

Refer to IUSS:GNS Clinical and specialised diagnostic laboratory guidelines

Patient accommodation

Table 5: Patient accommodation cohorts for short-term accommodation

Service type Accommodation Occupancy Notes
Paediatric

(unisex)

TB and MDR TB (female)
TB and MDR TB (male)
XDR (male/unisex)
XDR (female/unisex)
XDR paediatrics (unisex)
Former correctional services/(unisex isolation)
Psychiatric TB patients/ (unisex isolation)

Clinical support services for inpatient care

Nursing support is to be located centrally to serve several bed functional units (for sub-acute services) or dedicated per unit for acute services to ensure supervision and control of the department. Alternatively if functional units are physically separate, these nursing support facilities are to be duplicated. In addition to the inpatient facilities described here, TB patients will need access to facilities described in 2.1 above either as a dedicated facility or where appropriate, shared with outpatients.

Duty station/ nurse’s station

The duty station should be provided with a built-in worktop (desk height), a telephone, computer and network points, cupboards and a clinical hand-wash basin.

Clean linen area

A locked linen store with slatted racks to support the airing and safe storage of clean linen should be provided.

Dirty utility room

The dirty linen store near the sluice and a dirty utility service door with direct access to waste collection points for easy removal and disposal. Space for separate refuse bins for paper, medical waste and general waste.

Sluice room

A standard sluice room with bedpan, urinal racks, storage cupboards and a worktop should be provided.

Surgery services (operating theatre)

Surgical services are commonly required by TB patients so should be readily available in nearby referral facilities or for stand-alone TB-services minor procedures room may be provided on site. Support infrastructure such as CSSD is required in accordance with.

Staff facilities

A cluster of staff facilities should be provided for exclusive use by staff. These include a lounge/tea area/room; a kitchen area/room; staff locker area/room and staff ablutions. Staff facilities should be located remotely from patient areas to allow for:

  • airborne infection control
  • a “break-away” venue to rest following patient contact periods away from the demands of the work environment

Staff facilities should be readily accessible to the duty areas. The purpose of this kitchen is to prepare beverages for members of the staff at tea breaks and lunch breaks, and to provide a place for washing and storing crockery and stocks of tea, coffee, sugar, milk and cleaning materials under lock and key. The kitchen area/room should be equipped with a sink, lock-up cupboards, bar fridge, and an instant boiling water dispenser (“Hydroboil” or similar approved).

Staff lockers should be provided for each non-central service member of staff for storing personal belongings.

Procedure room

The procedure room can be provided for the taking of blood and other specimens (except sputum). Clinical hand-wash basin with elbow taps to be provided. Work tops at standing height. Lock-up cupboards and a patient couch with good lighting. The electrocardiogram and the emergency trolley can be stored in this room.

Store rooms

Store rooms for provisions and consumables, surgical stores, equipment (such as wheelchairs, crutches and health technology) should be provided. These stores must be ventilated and fitted with shelves selected for appropriate storage of goods. Where electrical equipment is stored, electrical socket points may be required to ensure battery charging.

Medical store

A lockable room for store for the safekeeping of ward stock and scheduled drugs, infusions etc. is required.  This must room must be cool (as close to 18 °C with passive means as possible), dry and dark (that is its electrical lighting should be independently controlled). It should be provided with a cabinet, worktop and adjustable shelving.

Matron’s office

The office should be a standard office with the normal requirements (desk, telephone, computer and network points, cupboards and a clinical hand-wash basin).

Mortuary

If a nearby referral healthcare establishment is available, a bier room may suffice. Alternatively a small mortuary may be provided. Refer to IUSS:GNS Mortuary Services.

Patient Support

Care should be taken to avoid enclosed congregate settings (such as waiting areas) where possible. Where these are required, they should be regarded as high risk for airborne contamination.

Visitor’s area

This area must be separate from the ward, should have a meeting room for several families, veranda and garden. Seating and tables must be built in.  The visitor facility can be shared between male and female patients. Access control must be provided for visitors.

Visitor’s ablution

To be attached to visitor’s area.  At least one unisex accessible toilet is to be provided.

Dining facilities

In acute settings, patients may be served meals in bed. A hall to accommodate patients is recommended in long-term care facilities.  This room should provide tables and chairs for all patients, a small kitchenette, fridge, microwave, stove and an instant boiling water dispenser (“Hydroboil” or similar approved).  These areas should have ample access to the outside. This room can be interlinked with games and TV rooms (if provided).

Business centre

This room should provide access to computers with Internet connectivity, space and chairs.

Resource centre/ media room/ library

This room should be like a small lounge providing space for books easy chairs and big table and chairs for occupational therapy activities.

Games room

This room should provide space for e.g. snooker, table tennis, and board games. This can be interlinked with other patient support areas (e.g. dining and TV room).

TV room

Separate from dining and games room, this room should have a TV, DVD and lounge suites. To be interlinked with Games and Dining Rooms.

Kitchenette

In addition to central kitchen services, an area may be provided in which patients can prepare their own meals and wash dishes. This area should be provided with a stove/oven, microwave, fridge, an instant boiling water dispenser (“Hydroboil” or similar approved), double sink, dishwasher.  Lock-up cupboards and counter top working areas.  Lock-up cupboards will provide store space for crockery and consumables.

Patient laundry

In addition to the central laundry services, provision may be made for a laundry for patient use only. This room should provide a washing machine and washing trough, and have direct access to a drying yard.

Other recreation

Patients are encouraged to spend much time outdoors during convalescence. Consideration should be made to providing pleasant garden and planting areas, possible vegetable gardens, and permanent weather-proof seats. An outdoor covered patio with braai facilities connected to dining area should be provided. An outdoor uncovered patio connected to the games/ TV room area may be provided. Storm-water management around the proposed building and affected grounds should be considered. 

Allied healthcare services

National policy recognises the importance of have a holistic psycho-social approach to patient care. Therefor provision should be made for allied health services preferably by practitioners on site, visiting practitioners or, alternatively at a nearby referral facility. Refer to IUSS:GNS Adult rehabilitation services for further guidance.

Occupational therapy

Occupational therapists (OTs) and assistant OTs deliver a service to TB patients.  It may be challenging to motivate patients especially when they are sick and are treated with many drugs, which have severe side effects.  OT aims to increase skills by training in several crafts, cooking classes etc.

Audiology

Audiology services are required as a common side-effect of TB treatment is hearing loss. A baseline hearing test ought to be performed upon patient admission and followed up with regular tests to determine the effects of the drugs on hearing.  If hearing is affected, drugs regimens can be adapted. Sharing of audiology equipment with referral facilities may be problematic as conventionally audio booths are enclosed to control noise and may be inadequately adapted for airborne infection risk. It is highly recommended that dedicated mobile audiometers which do not require booths (see KUDUwave, or equivalent) are secured for TB facilities. These can be supported by telemedicine so that reduced on-site involvement of audiologist is possible. Where the use of  mobile audiometers is not possible or appropriate, it is recommended that the audiology test booth used be ventilated and flushed with fresh air for 20 minutes between uses.

Physiotherapy

Physiotherapists and assistant physiotherapists deliver services to patients as required. This typically includes lung function tests, mobility exercises and assistance in sputum production where patients have difficulty.

Clinical psychology

Clinical psychologist sees patients on an individual basis, have climate groups and supervise the six lay counsellors in their work.

Social services

Social workers assist patients with social and economic issues which include the obtaining of grants, identity documents and family counselling.

Support services

School

Provision of school services may be negotiated with the relevant Provincial Department of Basic Education. Separate teaching and learning facilities may be provided.

Kitchen

Kitchen services may be outsourced or prepared on site. Refer to IUSS: GNS Catering Services

Laundry

General laundry services can be provided on site, off site or can be shared (where co-located). Refer to IUSS:GNS Laundry and linen. In addition to general laundry services some TB institutions encourage patients to wash their own clothing. Where this is the case, hand washing, washing machine, drying machines and/or drying yards should be provided.

Facilities management

Waste management

On-site disposal, storage and collection of waste need consideration. Refer to IUSS:GNS Waste disposal.

Maintenance services - building

Building maintenance services for both planned and unplanned maintenance (for example works foreman, electrician, painter, plumber, and carpenter) will be needed to provide service on site either on a full-time, part time or visiting basis depending on the size of the facility and institutional arrangement. Maintenance workshops and storage space may be required for this.

Clinical engineering

Gardening services

Gardening and grounds maintenance services may be provided on-site or outsourced. It is recommended that planting and landscaping is arranged near to building openings to discourage loitering nearby for infection prevention and control.

Cleaning services

Cleaning services may be outsourced. However storage of cleaning equipment, materials and staff facilities for cleaners is required to be provided on site.

Administration

Office accommodation is to be provided in accordance with the following reference: Department of Public Works, 2005. Space planning norms and standards for office accommodation used by organs of state. (Government notice 1665). Cape Town South Africa: Government Gazette.

Other

Co-located institutions/ activities

Medical researchers, NGOs and other organisations may provide services to and be co-located with the facility.

Overnight stay

Family member overnight accommodation is not routinely provided but may be desirable, particularly in rural settings. 

Commercial support (tuck shop, ATM)

Tuck shop facilities and banking services may be provided - if viable - on site for staff and patients. This is highly recommended as otherwise infectious patients leave the site in order to attend to these requirements.

Staff accommodation

Staff accommodation for nursing and or/clinical staff may be required by provincial policy, and may be recommended in most cases, especially in rural settings. Separation on site of staff quarters and patient facilities on site should allow for staff safety and privacy, whilst remaining within comfortable walking distance of the patient facilities. Refer to IUSS:GNS Health facility residential

Case studies

List of case studies

  •  Areas comparison of long-term XDR TB care facilities at:
    • Bongani Hospital, Mpumalanga
    • Tshepong Hospital, North West
    • Modimolle Hospital, Limpopo
  • Modimolle TB Hospital
    • site layout
    • patient rooms
    • natural ventilation design
  • Catherine Booth TB Hospital, KwaZulu-Natal
    • Roof ventilation and windows concept drawings
    • Two-bed patient rooms plan
Case study A - Bongani Hospital, Case study B - Tshepong Hospital
Case study C - MDR TB Unit, Modimolle and BCH proposal - Brooklyn chest Hospital
Modimolle TB Hospital (site layout)
Modimolle TB Hospital (patient rooms)
Modimolle TB Hospital (Natural ventilation design principles)
Catherine Booth TB Hospital, KwaZulu-NatalRoof (ventilation and windows concept drawings)
Catherine Booth TB Hospital, KwaZulu-Natal (Two-bed patient rooms plan)

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Abbreviations

ACGIH American Conference of Governmental Hygienists
ACH Air changes per hour
AIA American Institute of Architects
AIIR Airborne infection isolation room
ASHRAE American Society of Heating, Refrigerating and Air-Conditioning Engineers
CDC Centers for Disease Control and Prevention (US agency)
CSIR Council for Scientific and Industrial Research
CSSD central sterile supply department
DR drug-resistant
DR TB drug-resistant TB
EIA environmental impact assessment
IAQ indoor air quality
ICT information communications technology
IPC infection prevention and control
IRPA International Radiation Protection Agency
LEV local exhaust ventilation
MDR TB multi-drug-resistant TB
NDoH National Department of Health
NGO non-governmental organisation
NHLS National Health Laboratory Service (SA agency)
NHI National Health Insurance
NIOSH National Institute of Occupational Safety and Health (US agency)
OHS occupational health and safety
OPD outpatient department
OT occupational therapy / occupational therapist
PAC Portable air cleaner
PHC primary healthcare
PMV predicted mean vote
PPE personal protective equipment
QASA Quadra-para Association of South Africa
REL recommended exposure limit
RH relative humidity
RSE relative spectral effectiveness
SAHNORMS South African hospital norms
SDP site development plan
TB tuberculosis
TLV threshold limit values
UVA ultraviolet “A” (wavelength 400 nm–315 nm)
UVB ultraviolet “B” (wavelength 315 nm–280 nm)
UVC ultraviolet “C” (wavelength 280 nm–100 nm)
UVGI ultraviolet germicidal irradiation
WHO World Health Organisation
XDR TB extreme (or extensively) drug-resistant TB

Annexure 1. Indoor sputum booth

Application

This document contains a set of drawings and specifications presenting prototype concept of a Sputum Booth developed at the CSIR. These are intended for the clinical applications. Further information can be obtained from the Architectural Engineering Group of the Building Scient and Technology Unit of the CSIR.

Background

This document  presents technical drawings and specifications of the concept a sputum induction and collection booth designed for TB infection control in clinical settings. The prototype was developed by the Architectural Engineering Group, Building Science & Technology Programme, Division of Built Environment, CSIR.  The development process of this facility was described in a separate report: “Development of a prototype of the Sputum Booth; CDC project”, November 2013.

The related work was carried out in terms of the international research project funded by the Centre for Disease Control (CDC).

Figure 10: Sputum booth, rear view

Suggestions improvements on concept booth

Upon the completion of the prototype unit, a few areas were identified for further improvements. These relate to the following:

  • The mass of the unit is still too high for safe and resiliant transport. Solutions for weight reduction should be soughtExternal fold away handels could be included in the design for easier handling of the unit.
  • The overall length of the booth could be reduced by about 150 mm. This would still provide enough space to accommodate a person in a wheelchair.
  • The costs and mass of future units could be reduced by replacing the aluminium sandwich panelling with polymer sheeting
  • The fan-filter unit could be constructed such that is an integral structural component of the booth, reducing size and weight of the overall unit.
  • Incorporating an additional flexible one-way membrane behind the screen of the pre filter would limit the reversed airflow back into the booth when the booth is non-operational or during transportation.

Arduino wiring code for door interlock timer

/*Begin*/

/*

Sputum booth door lock control Sample code 08/11/2013

Written by: Tobias van Reenen (CSIR)

This Arduino Uno sketch controls a 12V magnetic door lock for a mechanically ventilated sputum booth

The door in this sketch remains normally locked and is released on the press of the external and internal door release buttons

The internal door release button will always unlock the door while the external button will only release the door after it has remained locked

for the predetermined length of time. This is in order to allow the booth ventilation system to adequately flush the booth between occupants.


The following wiring connections are made:

Arduino________Interface

GND ------------------ gnd

5.0v------------------ Vcc

Magnet power---------- +12V & -12V

8 -------------------- Release Button (Internal)

9 -------------------- Unlock Button (External)

10 ------------------- Unlock LED (Green)

11 ------------------- Locked LED (Red)

12 ------------------- Door Magnet Relay

*/

//Initiate variables

int doorLOCK = 12;                                            //5v relay pin, switching 12V Magnet

int lockedLED = 11;                                            //redLED

int unlockLED = 10;                                            //greenLED

int unlockButton = 9;                            //External Button requesting an door unlock. Cannot override timer --requires 10k pull-up resistor & 5V Vcc

int releaseButton = 8;                           //Internal button requesting a door release. Overrides timer --requires 10k pull-up resistor & 5V Vcc

float unlockDELAY = 3000; //3 seconds

float lockDELAY = 30000;                  //30 seconds

float unlockTimeStamp;                      

float lockTimeStamp;

int pressed = 0;

int unpressed = 1;

int UNLOCK = 1;

int LOCK = 0;                                                     //using normally closed relay config

int ON = 1;

int OFF = 0;

void setup() {

              pinMode(doorLOCK,OUTPUT);

              pinMode(lockedLED,OUTPUT);

              pinMode(unlockLED,OUTPUT);

              pinMode(unlockButton,INPUT);

              pinMode(releaseButton,INPUT);

              Serial.begin(9600);

              Serial.println("restart");

              digitalWrite(unlockLED,OFF);

              digitalWrite(lockedLED,ON);

}

void loop() {

              Serial.print("unlock: ");

              Serial.print(digitalRead(unlockButton));

              Serial.print(" release: ");

              Serial.print(digitalRead(releaseButton));

              Serial.print(" unlockLED: ");

              Serial.println(digitalRead(unlockLED));

              if (digitalRead(releaseButton) == pressed){                                       //check for release button press

              while (digitalRead(releaseButton) == pressed){                  //holds code until button released

              unlockDOOR();                                                                                // unlock door function

                                            }

              }

              if (digitalRead(unlockButton) == pressed){                                       //check for unlock button press

                             if (digitalRead(unlockLED) == ON){                   //only unlocks door if unlock LED is lit

                                            while (digitalRead(unlockButton) == pressed){//holds code until button released

                                                           unlockDOOR();

                                            }

                                            }                                                                         //unlock door function

                             }

              if (millis()> (unlockTimeStamp+unlockDELAY)){                            //counts down unlock delay and then locks door again

                             Serial.print("CountDown: "); Serial.println((lockDELAY+unlockTimeStamp+unlockDELAY-millis())/1000);

                             if ((digitalRead(unlockButton) == unpressed)&&(digitalRead(releaseButton) == unpressed)){

                                            if (digitalRead(doorLOCK)!=LOCK){  //checks for unlock button hold before locking door

                                                           lockDOOR();                                       //lock door function

                                            }

                             }

              }

              if (millis()> (lockTimeStamp+lockDELAY)){

                             digitalWrite(unlockLED, ON);

                             }

}

void unlockDOOR(){

              Serial.println("unlocking...");

              unlockTimeStamp = millis();                                              // initiate unlock counter

              digitalWrite(lockedLED,OFF);

              digitalWrite(unlockLED,OFF);

              digitalWrite(doorLOCK,UNLOCK);

}

void lockDOOR(){

              Serial.print("locking... ");

              lockTimeStamp = millis();

              digitalWrite(doorLOCK,LOCK);

              digitalWrite(lockedLED,ON);

              digitalWrite(unlockLED,OFF);

              Serial.print("unlockLED: ");

              Serial.println(digitalRead(unlockLED));

}

/*end*/

Drawings

Figure 11: Sputum booth, left view
Figure 12: Sputum booth, front view
Figure 13: Sputum booth, Isometric view
Figure 14: Sputum booth, door control logic
Figure 15: Sputum booth, door controller wiring
Figure 16: Sputum booth, door controller PCB (NTS)

Annexure 2.    Pre-fabricated outdoor sputum booth

Figure 17: Sputum booth Isometric view
Figure 18: Sputum booth front view
Figure 19: Sputum booth, side view.

Annexure 3. Brickwork outdoor sputum booth

Figure 20: Brickwork sputum booth-layout and detail