Impact of extreme weather conditions on healthcare provision in urban Ghana

Extreme weather events pose significant threats to urban health in low- and middle-income countries, particularly in sub-Saharan Africa where there are systemic health challenges. This paper investigates health system vulnerabilities associated with flooding and extreme heat, along with strategies f...

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Veröffentlicht in:	Social science & medicine (1982) 2020-08, Vol.258, p.113072, Article 113072
Hauptverfasser:	Codjoe, Samuel N.A., Gough, Katherine V., Wilby, Robert L., Kasei, Raymond, Yankson, Paul W.K., Amankwaa, Ebenezer F., Abarike, Mercy A., Atiglo, D. Yaw, Kayaga, Sam, Mensah, Peter, Nabilse, Cuthbert K., Griffiths, Paula L.
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Sprache:	eng
Schlagworte:	Built environment Cities Community Community health Delivery of Health Care Emergency medical care Emergency preparedness Extreme heat Extreme Weather Extreme weather events Flooding Floods Floodwater Ghana Health care Health care access Health Facilities Health infrastructure Health problems Health services Heat Hot Temperature Humans Hygiene Information sources Information systems Information technology Infrastructure Low income groups Lying Power Rain Rainfall Resilience Sanitation Socioeconomic factors Socioeconomics Surgery Temperature measurement Urban areas Urban environments Urban heat islands Urban population Urban poverty Ventilation Weather
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creator	Codjoe, Samuel N.A. Gough, Katherine V. Wilby, Robert L. Kasei, Raymond Yankson, Paul W.K. Amankwaa, Ebenezer F. Abarike, Mercy A. Atiglo, D. Yaw Kayaga, Sam Mensah, Peter Nabilse, Cuthbert K. Griffiths, Paula L.
description	Extreme weather events pose significant threats to urban health in low- and middle-income countries, particularly in sub-Saharan Africa where there are systemic health challenges. This paper investigates health system vulnerabilities associated with flooding and extreme heat, along with strategies for resilience building by service providers and community members, in Accra and Tamale, Ghana. We employed field observations, rainfall records, temperature measurements, and semi-structured interviews in health facilities within selected areas of both cities. Results indicate that poor building conditions, unstable power supply, poor sanitation and hygiene, and the built environment reduce access to healthcare for residents of poor urban areas. Health facilities are sited in low-lying areas with poor drainage systems and can be 6 °C warmer at night than reported by official records from nearby weather stations. This is due to a combination of greater thermal inertia of the buildings and the urban heat island effect. Flooding and extreme heat interact with socioeconomic conditions to impact physical infrastructure and disrupt community health as well as health facility operations. Community members and health facilities make infrastructural and operational adjustments to reduce extreme weather stress and improve healthcare provision to clients. These measures include: mobilisation of residents to clear rubbish and unclog drains; elevating equipment to protect it from floods; improving ventilation during extreme heat; and using alternative power sources for emergency surgery and storage during outages. Stakeholders recommend additional actions to manage flood and heat impacts on health in their cities, such as, improving the capacity of drainage systems to carry floodwaters, and routine temperature monitoring to better manage heat in health facilities. Finally, more timely and targeted information systems and emergency response plans are required to ensure preparedness for extreme weather events in urban areas. •Extreme weather events threaten urban health services in sub-Saharan Africa.•Poor citing of urban health facilities exposes them to heat and flood extremes.•Extreme events disrupt existing deficient health infrastructure and care provision.•Effective drainage and temperature management will aid urban healthcare provision.•Early warning and emergency response will help prepare for extreme weather events.
doi_str_mv	10.1016/j.socscimed.2020.113072
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Results indicate that poor building conditions, unstable power supply, poor sanitation and hygiene, and the built environment reduce access to healthcare for residents of poor urban areas. Health facilities are sited in low-lying areas with poor drainage systems and can be 6 °C warmer at night than reported by official records from nearby weather stations. This is due to a combination of greater thermal inertia of the buildings and the urban heat island effect. Flooding and extreme heat interact with socioeconomic conditions to impact physical infrastructure and disrupt community health as well as health facility operations. Community members and health facilities make infrastructural and operational adjustments to reduce extreme weather stress and improve healthcare provision to clients. These measures include: mobilisation of residents to clear rubbish and unclog drains; elevating equipment to protect it from floods; improving ventilation during extreme heat; and using alternative power sources for emergency surgery and storage during outages. Stakeholders recommend additional actions to manage flood and heat impacts on health in their cities, such as, improving the capacity of drainage systems to carry floodwaters, and routine temperature monitoring to better manage heat in health facilities. Finally, more timely and targeted information systems and emergency response plans are required to ensure preparedness for extreme weather events in urban areas. •Extreme weather events threaten urban health services in sub-Saharan Africa.•Poor citing of urban health facilities exposes them to heat and flood extremes.•Extreme events disrupt existing deficient health infrastructure and care provision.•Effective drainage and temperature management will aid urban healthcare provision.•Early warning and emergency response will help prepare for extreme weather events.</description><identifier>ISSN: 0277-9536</identifier><identifier>EISSN: 1873-5347</identifier><identifier>DOI: 10.1016/j.socscimed.2020.113072</identifier><identifier>PMID: 32502835</identifier><language>eng</language><publisher>England: Elsevier Ltd</publisher><subject>Built environment ; Cities ; Community ; Community health ; Delivery of Health Care ; Emergency medical care ; Emergency preparedness ; Extreme heat ; Extreme Weather ; Extreme weather events ; Flooding ; Floods ; Floodwater ; Ghana ; Health care ; Health care access ; Health Facilities ; Health infrastructure ; Health problems ; Health services ; Heat ; Hot Temperature ; Humans ; Hygiene ; Information sources ; Information systems ; Information technology ; Infrastructure ; Low income groups ; Lying ; Power ; Rain ; Rainfall ; Resilience ; Sanitation ; Socioeconomic factors ; Socioeconomics ; Surgery ; Temperature measurement ; Urban areas ; Urban environments ; Urban heat islands ; Urban population ; Urban poverty ; Ventilation ; Weather</subject><ispartof>Social science & medicine (1982), 2020-08, Vol.258, p.113072, Article 113072</ispartof><rights>2020 Elsevier Ltd</rights><rights>Copyright © 2020 Elsevier Ltd. 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Yaw</creatorcontrib><creatorcontrib>Kayaga, Sam</creatorcontrib><creatorcontrib>Mensah, Peter</creatorcontrib><creatorcontrib>Nabilse, Cuthbert K.</creatorcontrib><creatorcontrib>Griffiths, Paula L.</creatorcontrib><title>Impact of extreme weather conditions on healthcare provision in urban Ghana</title><title>Social science & medicine (1982)</title><addtitle>Soc Sci Med</addtitle><description>Extreme weather events pose significant threats to urban health in low- and middle-income countries, particularly in sub-Saharan Africa where there are systemic health challenges. This paper investigates health system vulnerabilities associated with flooding and extreme heat, along with strategies for resilience building by service providers and community members, in Accra and Tamale, Ghana. We employed field observations, rainfall records, temperature measurements, and semi-structured interviews in health facilities within selected areas of both cities. Results indicate that poor building conditions, unstable power supply, poor sanitation and hygiene, and the built environment reduce access to healthcare for residents of poor urban areas. Health facilities are sited in low-lying areas with poor drainage systems and can be 6 °C warmer at night than reported by official records from nearby weather stations. This is due to a combination of greater thermal inertia of the buildings and the urban heat island effect. Flooding and extreme heat interact with socioeconomic conditions to impact physical infrastructure and disrupt community health as well as health facility operations. Community members and health facilities make infrastructural and operational adjustments to reduce extreme weather stress and improve healthcare provision to clients. 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subjects	Built environment Cities Community Community health Delivery of Health Care Emergency medical care Emergency preparedness Extreme heat Extreme Weather Extreme weather events Flooding Floods Floodwater Ghana Health care Health care access Health Facilities Health infrastructure Health problems Health services Heat Hot Temperature Humans Hygiene Information sources Information systems Information technology Infrastructure Low income groups Lying Power Rain Rainfall Resilience Sanitation Socioeconomic factors Socioeconomics Surgery Temperature measurement Urban areas Urban environments Urban heat islands Urban population Urban poverty Ventilation Weather
title	Impact of extreme weather conditions on healthcare provision in urban Ghana
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