Advanced tools and more experimental studies are needed to urgently understand the impact of extreme heat events on urban health and wellbeing in the UK.
A new study, led by the University of the West of England, looked at gaps in our knowledge between the urban environment and heatwaves, indoor heat, and non-communicable diseases such as cancers, heart disease and asthma.
Published in Cities and Health, it examined what we already know about the effects of extreme heat, non-communicable diseases and related risk factors to help urban planners factor health considerations in the decision-making process.
Extreme heat is one of the largest weather-related causes of mortality, and particular challenge for towns and cities that experience the ‘urban heat island effect’ (built up areas that are hotter than surrounding locations). It is most extreme in tall buildings with little shading and no outdoor spaces, such as older tenement blocks; often the most vulnerable are most affected.
The UK experienced three extreme heatwave events through summer 2022 with older and clinically vulnerable groups more at risk from suffering and death. Through climate change, high carbon emission scenarios point towards a rise in outdoor temperature in the UK of up to 5.4 degrees centigrade by 2070. It is widely reported that 2023 is expected to be the hottest on record globally.
Findings in the research consistently demonstrated that higher temperatures above defined heat thresholds were significantly associated with increased mortality rates. The studies included in the review reported that for every 1°C rise above the heat threshold, mortality increased by up to 2.5 per cent, emphasising the urgent need for mitigation strategies. Furthermore, the projected impact of temperature rise on heat-related mortality showed alarming figures, with estimates suggesting a potential 90 per cent increase in heat-related deaths between the 2020s and 2050s under medium-emission scenario.
Researchers involved in the systematic review identified 24 eligible studies from a potential 244 on the topic. Fourteen of these examined the links between exposure to high ambient temperature and mortality in urban areas, while the remaining studies focused on emergency hospital admissions and years of life lost.
They found that there is very limited evidence of the effects of indoor heat exposure on a broad range of diseases and that advanced tools are needed to detect and attribute them. It strengthens arguments for planners and developers to mitigate the effects of urban heat islands. Researchers also recommend further investigations between indoor heat and death from any cause, heat stroke, hyperthermia, dehydration or hospital admissions.
Senior Lecturer in Public Health at the University of the West of England Dr Janet Ige said:
“Danger to life from extreme heat in the UK is well documented but less is known about how it affects non-communicable disease. These are diseases that you can’t catch such as cancers, heart disease or asthma.
“Our systematic review of all the available academic literature in the UK reveals a gap in our knowledge, especially concerning indoor heat, that should be urgently addressed so we can work with urban developers and planners to protect communities.”
The study is part of TRUUD, a transdisciplinary research project led by the University of Bristol, which aims to reduce non-communicable disease (such as cancers, diabetes, obesity, mental ill-health and respiratory illness) and health inequalities linked to the quality of urban planning and development.
Programme Director for TRUUD, Daniel Black added:
“This work adds critical evidence to help us improve the way our towns and cities are planned to promote better health. Our pilot project revealed the lack of data in this area, so these new systematic reviews are providing essential missing data on flooding and overheating. A key innovation is the use of this data by our economists, who will incorporate it in to our HAUS database tool, which our different intervention teams are testing with national and local government, and private sector.”
Notes for Editors
- A systematic review of the impacts of extreme heat on health and wellbeing in the United Kingdom is published in Cities and Health by Janet Ige, Jane Powell and Paul Pilkington.
- TRUUD is developing a new tool to value the health effects of urban development proposals. HAUS (Health Appraisal for Urban Systems) evaluates a range of factors including how buildings, transport, natural environment (including air pollution and green space), socio-economics and community infrastructure in new developments might improve or worsen health for its future residents. Eleanor Eaton at the University of Bath explains how it works.
- Tackling Root causes upstream of Unhealthy Urban Development (TRUUD) is a research project, based at the University of Bristol, looking at how urban centres can be planned to reduce health inequalities. It brings together experts from academia, industry and government to recommend and create new tools and processes for healthier cities. The project counts the cost of poor health, works with communities to communicate the issues they face and maps out the decision-making process in creating urban centres and includes two active case-studies in Bristol and Manchester.
- TRUUD is supported by the UK Prevention Research Partnership (UKPRP), an initiative funded by UK Research and Innovation Councils, the Department of Health and Social Care and the UK devolved administrations, and leading health research charities.
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