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Thermal indices for assessing the impact of outdoor thermal environments on human health: a systematic review of epidemiological studies

Thermal indices for assessing the impact of outdoor thermal environments on human health: a systematic review of epidemiological studies
Thermal indices for assessing the impact of outdoor thermal environments on human health: a systematic review of epidemiological studies
The global rise in temperatures contributes to the increase of climate-sensitive diseases. Despite mitigation efforts, temperatures are projected to keep rising, highlighting the need for integrated methods to assess the impact of thermal environments on human health. This study summarizes the existing evidence on the statistical relationships (associations) between thermal indices and health outcomes. Medline, Scopus, and Web of Science were systematically searched until December, 2023 for studies examining the association between thermal indices and health outcomes in outdoor environments (protocol registration: PROSPERO CRD42023412470). The quality of the included studies was assessed using the United States National Institutes of Health Quality Assessment Tool. The search identified 5038 records, with 310 meeting eligibility criteria and examining 1143 associations. These associations represented 51 countries, primarily in North America (n = 448, 39.2%) and Europe (n = 399, 34.9%). Temperate climates (n = 597, 52.2%) were the most frequently examined. Seventeen indices were identified, with Apparent Temperature being the most common (141 publications, 634 associations). Frequently used indices included also Heat Index, Universal Thermal Climate Index, and Physiologically Equivalent Temperature. About half of the associations focused on mortality and half on morbidity. The most frequently examined associations were for diseases of the circulatory system (n = 304, 26.6%), all-cause morbidity/mortality (n = 288, 25.2%), and diseases of the respiratory system (n = 151, 13.2%). Among associations examining heat-related outcomes (n = 882), 57.8% (n = 510) suggested an increased risk of adverse health outcomes as indices increased, while for cold-related outcomes (n = 367), 44.1% (n = 162) suggested an increased risk as indices decreased. This systematic review reveals significant associations between thermal indices and health outcomes, indicating that thermal indices could be valuable tools for public health planning. However, the diversity in methodologies across studies highlights the need for standardization in methodology and reporting, including the reporting of non-significant findings.
Apparent temperature, Cold stress, Health outcomes, Heat index, Heat stress, Humidex, PET, UTCI
0020-7128
1843-1866
Pantavou, Katerina
abe7b3c3-cc08-4335-8bf2-e9f22921881e
Fillon, Adrien
229325c8-ed39-40c1-8286-d32f1a1a8007
Li, Lunzheng
7d699bd6-0aec-458f-9ed6-76a42c4893ae
Maniadis, Zacharias
70ffa309-94c9-487c-982f-778294ea2a13
Nikolopoulos, Georgios K.
7e5685d4-afa7-4d0a-bd75-e602c18c71cb
Pantavou, Katerina
abe7b3c3-cc08-4335-8bf2-e9f22921881e
Fillon, Adrien
229325c8-ed39-40c1-8286-d32f1a1a8007
Li, Lunzheng
7d699bd6-0aec-458f-9ed6-76a42c4893ae
Maniadis, Zacharias
70ffa309-94c9-487c-982f-778294ea2a13
Nikolopoulos, Georgios K.
7e5685d4-afa7-4d0a-bd75-e602c18c71cb

Pantavou, Katerina, Fillon, Adrien, Li, Lunzheng, Maniadis, Zacharias and Nikolopoulos, Georgios K. (2025) Thermal indices for assessing the impact of outdoor thermal environments on human health: a systematic review of epidemiological studies. International Journal of Biometeorology, 69 (8), 1843-1866. (doi:10.1007/s00484-025-02948-x).

Record type: Review

Abstract

The global rise in temperatures contributes to the increase of climate-sensitive diseases. Despite mitigation efforts, temperatures are projected to keep rising, highlighting the need for integrated methods to assess the impact of thermal environments on human health. This study summarizes the existing evidence on the statistical relationships (associations) between thermal indices and health outcomes. Medline, Scopus, and Web of Science were systematically searched until December, 2023 for studies examining the association between thermal indices and health outcomes in outdoor environments (protocol registration: PROSPERO CRD42023412470). The quality of the included studies was assessed using the United States National Institutes of Health Quality Assessment Tool. The search identified 5038 records, with 310 meeting eligibility criteria and examining 1143 associations. These associations represented 51 countries, primarily in North America (n = 448, 39.2%) and Europe (n = 399, 34.9%). Temperate climates (n = 597, 52.2%) were the most frequently examined. Seventeen indices were identified, with Apparent Temperature being the most common (141 publications, 634 associations). Frequently used indices included also Heat Index, Universal Thermal Climate Index, and Physiologically Equivalent Temperature. About half of the associations focused on mortality and half on morbidity. The most frequently examined associations were for diseases of the circulatory system (n = 304, 26.6%), all-cause morbidity/mortality (n = 288, 25.2%), and diseases of the respiratory system (n = 151, 13.2%). Among associations examining heat-related outcomes (n = 882), 57.8% (n = 510) suggested an increased risk of adverse health outcomes as indices increased, while for cold-related outcomes (n = 367), 44.1% (n = 162) suggested an increased risk as indices decreased. This systematic review reveals significant associations between thermal indices and health outcomes, indicating that thermal indices could be valuable tools for public health planning. However, the diversity in methodologies across studies highlights the need for standardization in methodology and reporting, including the reporting of non-significant findings.

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Accepted/In Press date: 12 May 2025
e-pub ahead of print date: 2 June 2025
Published date: August 2025
Keywords: Apparent temperature, Cold stress, Health outcomes, Heat index, Heat stress, Humidex, PET, UTCI

Identifiers

Local EPrints ID: 502350
URI: http://eprints.soton.ac.uk/id/eprint/502350
DOI: doi:10.1007/s00484-025-02948-x
ISSN: 0020-7128
PURE UUID: 087605ea-7285-427e-98dd-3bce844865eb
ORCID for Zacharias Maniadis: ORCID iD orcid.org/0000-0002-3225-0835

Catalogue record

Date deposited: 24 Jun 2025 16:32
Last modified: 04 Sep 2025 02:13

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Contributors

Author: Katerina Pantavou
Author: Adrien Fillon
Author: Lunzheng Li
Author: Zacharias Maniadis ORCID iD
Author: Georgios K. Nikolopoulos

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