Mitigation strategies for heat-related illness during mass gatherings: Hajj experience

Background Global temperatures are on the rise, leading to more frequent and severe heatwaves with associated health risks. Heat-related illnesses are an increasing threat for travellers to hot climate destinations. This study was designed to elucidate the interplay between increasing ambient temperatures, incidence of heat-related illnesses, and the effectiveness of mitigation strategies during the annual Hajj mass gathering over a 40-year period. Methods An observational study was conducted utilizing historical records spanning four decades of meteorological data, and the rates of heat stroke and heat exhaustion during the Hajj pilgrimage in Mecca, Saudi Arabia. With an annual population exceeding two million participants from over 180 countries, the study analyzed temporal variations in weather conditions over two distinct Hajj hot cycles and correlated it with the occurrence of heat stroke and heat exhaustion. The effectiveness of deployed mitigation measures in alleviating health vulnerabilities between the two cycles was also assessed. Results Throughout the study period, average dry and wet bulb temperatures in Mecca escalated by 0.4°C (Mann-Kendall p<0.0001) and 0.2°C (Mann-Kendall p=0.25) per decade respectively. Both temperatures were strongly correlated with the incidence of heat stroke and heat exhaustion (p<0.001). Despite the intensifying heat, the mitigation strategies including individual, structural and community measures were associated with a substantial 74.6% reduction in heat stroke cases and a 47.6% decrease in case fatality rate. Conclusion The study underscores the escalating climate-related health risks in Mecca over the study period. The mitigation measures' efficacy in such a globally representative setting emphasizes the findings' generalizability and the importance of refining public health interventions in the face of rising temperatures.

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Precision Public Health Opportunity: Heat-Associated Mortality Greater among Pilgrims during Hajj

Schmidt¹

2023

Environ Health Perspect

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Mitigation strategies for heat-related illness during mass gatherings: Hajj experience

Cited by 3 publications

References 34 publications

Application of the socioecological model to mitigate risks of heat illness

Application of the socioecological model to mitigate risks of heat illness

Escalating climate-related health risks for Hajj pilgrims to Mecca

Precision Public Health Opportunity: Heat-Associated Mortality Greater among Pilgrims during Hajj

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