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Home is where the health is: what indoor environment quality delivers a “healthy” home?

Author/s: Rochelle Ade, Michael Rehm

Date Published: 02/01/2020

Published in: Volume 26 - 2020 Issue 1 (pages 1 - 17)

Abstract

This study uses critical discourse analysis to review the belief structure surrounding cold and damp housing in New Zealand (NZ) finding that a strong belief structure exists in the NZ psyche that “cold and damp” housing is linked to poor health outcomes. This belief structure has led to recent changes to NZ law to ensure healthy rental housing is provided via the Healthy Homes Guarantee Act. This law utilises a healthy minimum temperature threshold of 18°C as set by the World Health Organisation (WHO). A review of the literature finds limited evidential basis for this minimum temperature threshold, concluding that there is no academic consensus on what indoor environment quality (IEQ) would be required to deliver a healthy home. Until future research fills this knowledge void the current temperature guidelines (18°C to 24°C) could be carefully utilised in conjunction with measures of relative humidity (RH 40% to 60%) and thermal comfort.

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Keywords

Housing - Indoor Environment Quality - Relative Humidity - Temperature

References

  • Agyekum, K.Salgin, B.Danso, A. (2017) The health impacts of damp housing conditions: Lessons for inhabitants living in damp tropical buildings, Paper presented at the International conference on infrastructure development in Africa, Kumasi, Ghana.
  • Barnard, L. T.Howden-Chapman, P.Clarke, M.Ludolph, R. (2018) WHO housing and health guidelines: Web Annex B: Report of the systematic review on the effect of indoor cold on health. (2018) WHO housing and health guidelines: Web Annex B: Report of the systematic review on the effect of indoor cold on health.
  • Barreca, A. I.Shimshack, J. P. (2012) Absolute humidity, temperature, and influenza mortality: 30 years of county-level evidence from the united states, American Journal of Epidemiology. 176(suppl_7), p:S114-S122. American Journal of Epidemiology.
  • Baughman, A.Arens, E. A. (1996) Indoor humidity and human health–Part I: Literature review of health effects of humidity-influenced indoor pollutants. Indoor humidity and human health–Part I: Literature review of health effects of humidity-influenced indoor pollutants.
  • Bentley, R. J.Pevalin, D.Baker, E.Mason, K.Reeves, A.Beer, A. (2016) Housing affordability, tenure and mental health in Australia and the united kingdom: A comparative panel analysis, Housing Studies. 31(2), p:208-222. Housing Studies.
  • Bills, K. L.West, S. M.Hargrove, J. (2019) Housing cost burden and maternal stress among very low income mothers, Journal of Sociology and Social Welfare. 46, p:73. Journal of Sociology and Social Welfare.
  • Bonnefoy, X. (2007) Inadequate housing and health: An overview, International Journal of Environment and Pollution. 30(3–4), –.p:411-429. International Journal of Environment and Pollution.
  • Bruce, N.Elford, J.Wannamethee, G.Shaper, A. G. (1991) The contribution of environmental temperature and humidity to geographic variations in blood pressure, Journal of Hypertension. 9(9), p:851-858. Journal of Hypertension.
  • BS 5250. (1989) British standard code of practice for control of condensation in buildings. British Standards Institution.British standard code of practice for control of condensation in buildings.
  • Burgess, J. (2011) Sustainability of the New Zealand Housing Stock, BRANZ study report SR 253. (2011). Retrieved from http://www.branz.co.nz/cms_show_download.php?id=6aa4ded75413c78597a8c430dee930dd8e5df209
  • Chisholm, E.Howden-Chapman, P.Fougere, G. (2017) Renting in new zealand: Perspectives from tenant advocates, K?tuitui: New Zealand Journal of Social Sciences Online. 12(1), p:95-110. K?tuitui: New Zealand Journal of Social Sciences Online.
  • (2019) Climate Change Response (Zero Carbon) Amendment Bill, Retrieved from. Retrieved from http://www.legislation.govt.nz/bill/government/2019/0136/latest/LMS183736.html
  • Collins, K. (1986) Low indoor temperatures and morbidity in the elderly, Age and Ageing. 15(4), –.p:212-220. Age and Ageing.
  • Comite’Europe’en de Normalisation, C. (2007) Indoor environmental input parameters for design and assessment of energy performance of buildings addressing indoor air quality, thermal environment, lighting and acoustics. (2007).En 15251. Indoor environmental input parameters for design and assessment of energy performance of buildings addressing indoor air quality, thermal environment, lighting and acoustics.
  • Ministry of Housing and Local Government, P. M. (1961) Homes for today and tomorrow. London: EdHM Stationary Office. Homes for today and tomorrow.
  • Cunningham, M. (1998) Direct measurements of temperature and humidity in dust mite microhabitats, Clinical and Experimental Allergy. 28(9), –.p:1104-1112. Clinical and Experimental Allergy.
  • Cunningham, M. J. (1999) Modelling of some dwelling internal microclimates, Building and Environment. 34(5), –.p:523-536. Building and Environment.
  • Davis, R. E.McGregor, G. R.Enfield, K. B. (2016) Humidity: A review and primer on atmospheric moisture and human health, Environmental Research. 144, p:106-116. Environmental Research.
  • Derby, M. M.Pasch, R. M. (2017) Effects of low humidity on health, comfort & IEQ, Ashrae J. 59, p:44-51. Ashrae J.
  • Dhainaut, J.Claessens, Y.Ginsburg, C.Riou, B. (2003) Unprecedented heat-related deaths during the 2003 heat wave in paris: Consequences on emergency departments, Critical Care. 8(1), p:1. Critical Care.
  • Donnel, E. (2018) Mould, sweet mould: Inside New Zealand’s damp housing crisis,.Retrieved from. Retrieved from https://thespinoff.co.nz/society/22-08-2018/mould-sweet-mould-inside-new-zealands-damp-housing-crisis/
  • Fairclough, N. (2007) Discourse and contemporary social change. 54, (Vol. ). Bern:.Peter Lang. Discourse and contemporary social change.
  • Fairclough, N. (2013) Critical discourse analysis: The critical study of language. Abingdon, UK:.Routledge. Critical discourse analysis: The critical study of language.
  • Gupta, R.Kapsali, M. (2016) Empirical assessment of indoor air quality and overheating in low-carbon social housing dwellings in England, UK, Advances in Building Energy Research. 10(1), p:46-68. Advances in Building Energy Research.
  • Hajat, S.O’Connor, M.Kosatsky, T. (2010) Health effects of hot weather: From awareness of risk factors to effective health protection, The Lancet. 375(9717), p:856-863. The Lancet.
  • Head, K.Clarke, M.Bailey, M.Livinski, A.Ludolph, R.Singh, A. (2018) Report of the systematic review on the effect of indoor heat on health. WHO housing and health guidelines. (2018) World Health Organization. Report of the systematic review on the effect of indoor heat on health. WHO housing and health guidelines.
  • Howden-Chapman, P.Matheson, A.Crane, J.Viggers, H.Cunningham, M.Blakely, D. G. (2007) Effect of insulating existing houses on health inequality: Cluster randomised study in the community, BMJ (Clinical Research Ed.). 334(7591), p:460. doi:bmj.39070.573032.80 [pii]. BMJ (Clinical Research Ed.).
  • Howieson, S. (2017) The great Scottish housing disaster: The impacts of feudalism, modernism, energy efficiency and vapour barriers on indoor air quality, asthma and public health, Sustainability. 10(1),.p:18. Sustainability.
  • Ikäheimo, T.Jaakkola, K.Jokelainen, J.Saukkoriipi, A.Roivainen, M.Juvonen, J. J. (2016) A decrease in temperature and humidity precedes human rhinovirus infections in a cold climate, Viruses. 8(9), p:244. Viruses.
  • Johnson, E. P. (2011) Air-source heat pump carbon footprints: HFC impacts and comparison to other heat sources, Energy Policy. 39(3), –.p:1369-1381. Energy Policy.
  • Johnston, K. (2017) Damp, overcrowded homes bigger threat to kids than car crashes,.Retrieved from. Retrieved from https://www.nzherald.co.nz/nz/news/article.cfm?c_id=1&objectid=11913397
  • Kenny, G. P.Flouris, A. D.Yagouti, A.Notley, S. R. (2019) Towards establishing evidence-based guidelines on maximum indoor temperatures during hot weather in temperate continental climates, Temperature. 6(1), p:11-36. Temperature.
  • Kilpelainen, M.Terho, E. O.Helenius, H.Koskenvuo, M. (2001) Home dampness, current allergic diseases, and respiratory infections among young adults, Thorax. 56(6), p:462-467. Thorax.
  • Klenk, J.Becker, C.Rapp, K. (2010) Heat-related mortality in residents of nursing homes, Age and Ageing. 39(2), p:245-252. Age and Ageing.
  • Koep, T. H.Enders, F. T.Pierret, C.Ekker, S. C.Krageschmidt, D.Neff, K. L.Huskins, W. C. (2013) Predictors of indoor absolute humidity and estimated effects on influenza virus survival in grade schools, BMC Infectious Diseases. 13(1), p:71. BMC Infectious Diseases.
  • Korsgaard, J. (1998) Epidemiology of house?dust mites, Allergy. 53, –.p:36-40. Allergy.
  • Koskinen, O. M.Husman, T. M.Meklin, T. M.Nevalainen, A. I. (1999) The relationship between moisture or mould observations in houses and the state of health of their occupants, The European Respiratory Journal. 14(6), p:1363-1367. The European Respiratory Journal.
  • Lam, L. T. (2007) The association between climatic factors and childhood illnesses presented to hospital emergency among young children, International Journal of Environmental Health Research. 17(1), –.p:1-8. International Journal of Environmental Health Research.
  • MacAndrew, R. (2018) Raising kids in a damp home: One woman’s battle to get out of her housing NZ hell,.Retrieved from. Retrieved from https://www.stuff.co.nz/dominion-post/news/106831962/raising-kids-in-a-damp-home-one-womans-battle-to-get-out-of-her-housing-nz-hell
  • Marmot, M.Geddes, I.Bloomer, E.Allen, J.Goldblatt, P. (2011) The health impacts of cold homes and fuel poverty. London: Friends of the Earth & the Marmot Review Team. The health impacts of cold homes and fuel poverty.
  • McGeehin, M. A.Mirabelli, M. (2001) The potential impacts of climate variability and change on temperature-related morbidity and mortality in the united states, Environmental Health Perspectives. 109(Suppl 2), p:185-189. Environmental Health Perspectives.
  • McLeod, R. S.Hopfe, C. J.Kwan, A. (2013) An investigation into future performance and overheating risks in passivhaus dwellings, Building and Environment. 70, p:189-209. Building and Environment.
  • McNicholas, A.Lennon, D.Crampton, P.Howden-Chapman, P. (2000) Overcrowding and infectious diseases-when will we learn the lessons of our past?, New Zealand Medical Journal. 113(1121), p:453. New Zealand Medical Journal.
  • Mendell, M. J.Mirer, A. G.Cheung, K.Tong, M.Douwes, J. (2011) Respiratory and allergic health effects of dampness, mold, and dampness-related agents: A review of the epidemiologic evidence, Environmental Health Perspectives. 119(6), p:748-756. Environmental Health Perspectives.
  • Millar, C. (2017) New zealand homes: Damp, cold and mouldy,.Retrieved from. Retrieved from https://www.nzherald.co.nz/nz/news/article.cfm?c_id=1&objectid=11897319
  • Milne, K.Kearns, R. (1999) Housing status and health implications for pacific peoples in New Zealand, Pacific Health Dialog. 6(1), p:80-86. Pacific Health Dialog.
  • Milner, J.Wilkinson, P. (2017) Commentary: Effects of home energy efficiency and heating interventions on cold-related health, Epidemiology. 28(1), p:86-89. Epidemiology.
  • Mitchell, R.Natarajan, S. (2019) Overheating risk in passivhaus dwellings, Building Services Engineering Research and Technology. 40, p:4. Building Services Engineering Research and Technology.
  • Mu, Z.Chen, P.Geng, F.Ren, L.Gu, W.Ma, J.Li, Q. (2017) Synergistic effects of temperature and humidity on the symptoms of COPD patients, International Journal of Biometeorology. 61(11), p:1919-1925. International Journal of Biometeorology.
  • New Zealand Parliament Hansard. (2016) Hansard debates. (2016).Hansard debates.
  • New Zealand Parliament Hansard. (2018) Housing rental minimum standards. (2018).Housing rental minimum standards.
  • New Zealand Parliament Hansard. (2019) 10. question no. 10—Housing and urban development. (2019).10. question no. 10—Housing and urban development.
  • Oreszczyn, T.Pretlove, S. (2000) Mould index. Cutting the Cost of Cold. E.& FN Spon, London. 122–133,, London.
  • Ormandy, D.Ezratty, V. (2012) Health and thermal comfort: From WHO guidance to housing strategies, Energy Policy. 49, p:116-121. Energy Policy.
  • Osman, L. M.Ayres, J. G.Garden, C.Reglitz, K.Lyon, J.Douglas, J. G. (2008) Home warmth and health status of copd patients, European Journal of Public Health. 18(4), p:399-405. European Journal of Public Health.
  • Pierse, N.Arnold, R.Keall, M.Howden-Chapman, P.Crane, J.Cunningham, M. (2013) Modelling the effects of low indoor temperatures on the lung function of children with asthma, Journal of Epidemiology and Community Health. 67(11), p:918-925. Journal of Epidemiology and Community Health.
  • Platt, S. D.Martin, C. J.Hunt, S. M.Lewis, C. W. (1989) Damp housing, mould growth, and symptomatic health state, BMJ (Clinical Research Ed.). 298(6689), p:1673-1678. BMJ (Clinical Research Ed.).
  • Preval, N.Keall, M.Telfar-Barnard, L.Grimes, A.Howden-Chapman, P. (2017) Impact of improved insulation and heating on mortality risk of older cohort members with prior cardiovascular or respiratory hospitalisations, BMJ Open. 7, p:11. BMJ Open.
  • Prussin, A. J.Schwake, D. O.Lin, K.Gallagher, D. L.Buttling, L.Marr, L. C. (2018) Survival of the enveloped virus Phi6 in droplets as a function of relative humidity, absolute humidity, and temperature, Applied and Environmental Microbiology. 84(12), Applied and Environmental Microbiology.
  • Rangiwhetu, L.Pierse, N.Viggers, H.Howden-Chapman, P. (2018) Cold new zealand council housing getting an upgrade, Policy Quarterly. 14, p:2. Policy Quarterly.
  • (2019) Residential Tenancies (Healthy Homes Standards) regulations, Retrieved from. Retrieved from http://www.legislation.govt.nz/regulation/public/2019/0088/latest/whole.html
  • Ross, A.Collins, M.Sanders, C. (1990) Upper respiratory tract infection in children, domestic temperatures, and humidity, Journal of Epidemiology and Community Health. 44(2), p:142-146. Journal of Epidemiology and Community Health.
  • Saeki, K.Obayashi, K.Iwamoto, J.Tanaka, Y.Tanaka, N.Takata, S.Kurumatani, N. (2013) Influence of room heating on ambulatory blood pressure in winter: A randomised controlled study, Journal of Epidemiology and Community Health. 67(6), p:484-490. Journal of Epidemiology and Community Health.
  • Saeki, K.Obayashi, K.Kurumatani, N. (2015) Short-term effects of instruction in home heating on indoor temperature and blood pressure in elderly people: A randomized controlled trial, Journal of Hypertension. 33(11), p:2338-2343. Journal of Hypertension.
  • Sameni, S. M. T.Gaterell, M.Montazami, A.Ahmed, A. (2015) Overheating investigation in UK social housing flats built to the passivhaus standard, Building and Environment. 92, p:222-235. Building and Environment.
  • Shaman, J.Kohn, M. (2009) Absolute humidity modulates influenza survival, transmission, and seasonality, Proceedings of the National Academy of Sciences of the United States of America. 106(9), p:3243-3248. Proceedings of the National Academy of Sciences of the United States of America.
  • Shaman, J.Pitzer, V. E.Viboud, C.Grenfell, B. T.Lipsitch, M. (2010) Absolute humidity and the seasonal onset of influenza in the continental united states, PLoS Biology. 8(2), p:e1000316. PLoS Biology.
  • Sherbakov, T.Malig, B.Guirguis, K.Gershunov, A.Basu, R. (2018) Ambient temperature and added heat wave effects on hospitalizations in california from 1999 to 2009, Environmental Research. 160, p:83-90. Environmental Research.
  • Shiue, I. (2016) Cold homes are associated with poor biomarkers and less blood pressure check-up: English longitudinal study of ageing, 2012–2013, Environmental Science and Pollution Research. 23(7), –.p:7055-7059. Environmental Science and Pollution Research.
  • Shiue, I.Shiue, M. (2014) Indoor temperature below 18 degrees C accounts for 9% population attributable risk for high blood pressure in scotland, International Journal of Cardiology. 171(1), p:e1-2. International Journal of Cardiology.
  • Shorter, C.Crane, J.Pierse, N.Barnes, P.Kang, J.Wickens, H. A. (2018) Indoor visible mold and mold odor are associated with new?onset childhood wheeze in a dose?dependent manner, Indoor Air. 28(1), p:6-15. Indoor Air.
  • Stanton, A.Scott, D.Downham, M. (1980) Is overheating a factor in some unexpected infant deaths?, The Lancet. 315(8177), p:1054-1057. The Lancet.
  • Sterling, E.Arundel, A.Sterling, T. (1985) Criteria for human exposure to humidity in occupied buildings, ASHRAE Transactions. 91(1B), p:611-622. ASHRAE Transactions.
  • Strachan, D. P.Sanders, C. H. (1989) Damp housing and childhood asthma; respiratory effects of indoor air temperature and relative humidity, Journal of Epidemiology and Community Health. 43(1), p:7-14. Journal of Epidemiology and Community Health.
  • Sundell, J. (2004) On the history of indoor air quality and health, Indoor Air. 14(s7), –.p:51-58. Indoor Air.
  • Telfar-Barnard, L.Bennett, J.Howden-Chapman, P.Jacobs, D.Ormandy, D.Cutler-Welsh, K. M. (2017) Measuring the effect of housing quality interventions: The case of the New Zealand “rental warrant of fitness”, International Journal of Environmental Research and Public Health. 14(11), p:1352. International Journal of Environmental Research and Public Health.
  • Tin, S. T.Woodward, A.Saraf, R.Berry, S.Carr, P. A.Morton, S. M.Grant, C. C. (2016) Internal living environment and respiratory disease in children: Findings from the growing up in New Zealand longitudinal child cohort study, Environmental Health. 15(1), p:120. Environmental Health.
  • Toledo, L.Cropper, P.Wright, A. J. (2016) Unintended consequences of sustainable architecture: Evaluating overheating risks in new dwellings, Paper presented at the Paper Presented at the 32nd International Passive and Low Energy Architecture (PLEA) Conference.
  • Twyford, P. (2019) Standards to make homes warm and dry released. Retrieved fromStandards to make homes warm and dry released. Retrieved from https://www.beehive.govt.nz/release/standards-make-homes-warm-and-dry-released
  • Venn, A. J.Cooper, M.Antoniak, M.Laughlin, C.Britton, J.Lewis, S. A. (2003) Effects of volatile organic compounds, damp, and other environmental exposures in the home on wheezing illness in children, Thorax. 58(11), p:955-960. Thorax.
  • Watson, A. (2019) The cost of cold, damp homes is too high,.Retrieved from. Retrieved from https://www.stuff.co.nz/business/opinion-analysis/112001047/the-cost-of-cold-damp-homes-is-too-high
  • Wiemken, T. L.Mattingly, W. A.Furmanek, S. P.Guinn, B. E.English, C. L.Carrico, R.Ramirez, J. A. (2017) Impact of temperature relative humidity and absolute humidity on the incidence of hospitalizations for lower respiratory tract infections due to influenza, rhinovirus, and respiratory syncytial virus: Results from community-acquired pneumonia organization (CAPO) international cohort study, The University of Louisville Journal of Respiratory Infections. 1(3), p:7. The University of Louisville Journal of Respiratory Infections.
  • Witten, K.Wall, M.Carroll, P.Telfar-Barnard, L.Huckle, T.Scott, K. (2017) The New Zealand rental sector. (2017) (No. ER222). BRANZ. The New Zealand rental sector.
  • Wodak, R.Fairclough, N. (2013) Critical discourse analysis. London: Sage. Critical discourse analysis.
  • Wolkoff, P. (2018) Indoor air humidity, air quality, and health–An overview, International Journal of Hygiene and Environmental Health. 221(3), –.p:376-390. International Journal of Hygiene and Environmental Health.
  • World Health Organisation. (1991) Indoor environment: Health aspects of air quality, Thermal environment, light and noise. (1991).(No. WHO/ENE/RUD/90.2). Indoor environment: Health aspects of air quality, Thermal environment, light and noise.
  • World Health Organization. (1987) Health impact of low indoor temperatures. (1987).Author. Health impact of low indoor temperatures.
  • World Health Organization. (2018) WHO housing and health guidelines. Geneva: (2018)(CC BY-NC-SA 3.0 IGO). WHO. WHO housing and health guidelines.
  • Xu, Z.Etzel, R. A.Su, H.Huang, C.Guo, Y.Tong, S. (2012) Impact of ambient temperature on children’s health: A systematic review, Environmental Research. 117, p:120-131. Environmental Research.
  • Zivin, J. G.Shrader, J. (2016) Temperature extremes, health, and human capital, The Future of Children. p:31-50. The Future of Children.