Short term association between ozone and mortality: global two stage time series study in 406 locations in 20 countries.
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BORIS DOI
Date of Publication
February 10, 2020
Publication Type
Article
Division/Institute
Contributor
Sera, Francesco | |
Liu, Cong | |
Armstrong, Ben | |
Milojevic, Ai | |
Guo, Yuming | |
Tong, Shilu | |
Lavigne, Eric | |
Kyselý, Jan | |
Urban, Aleš | |
Orru, Hans | |
Indermitte, Ene | |
Pascal, Mathilde | |
Huber, Veronika | |
Schneider, Alexandra | |
Katsouyanni, Klea | |
Samoli, Evangelia | |
Stafoggia, Massimo | |
Scortichini, Matteo | |
Hashizume, Masahiro | |
Honda, Yasushi | |
Ng, Chris Fook Sheng | |
Hurtado-Diaz, Magali | |
Cruz, Julio | |
Silva, Susana | |
Madureira, Joana | |
Scovronick, Noah | |
Garland, Rebecca M | |
Kim, Ho | |
Tobias, Aurelio | |
Íñiguez, Carmen | |
Forsberg, Bertil | |
Åström, Christofer | |
Ragettli, Martina S | |
Röösli, Martin | |
Guo, Yue-Liang Leon | |
Chen, Bing-Yu | |
Zanobetti, Antonella | |
Schwartz, Joel | |
Bell, Michelle L | |
Kan, Haidong | |
Gasparrini, Antonio |
Series
BMJ
ISSN or ISBN (if monograph)
1756-1833
Publisher
BMJ Publishing Group
Language
English
Publisher DOI
PubMed ID
32041707
Description
OBJECTIVE
To assess short term mortality risks and excess mortality associated with exposure to ozone in several cities worldwide.
DESIGN
Two stage time series analysis.
SETTING
406 cities in 20 countries, with overlapping periods between 1985 and 2015, collected from the database of Multi-City Multi-Country Collaborative Research Network.
POPULATION
Deaths for all causes or for external causes only registered in each city within the study period. MAIN OUTCOME MEASURES: Daily total mortality (all or non-external causes only).
RESULTS
A total of 45 165 171 deaths were analysed in the 406 cities. On average, a 10 µg/m3 increase in ozone during the current and previous day was associated with an overall relative risk of mortality of 1.0018 (95% confidence interval 1.0012 to 1.0024). Some heterogeneity was found across countries, with estimates ranging from greater than 1.0020 in the United Kingdom, South Africa, Estonia, and Canada to less than 1.0008 in Mexico and Spain. Short term excess mortality in association with exposure to ozone higher than maximum background levels (70 µg/m3) was 0.26% (95% confidence interval 0.24% to 0.28%), corresponding to 8203 annual excess deaths (95% confidence interval 3525 to 12 840) across the 406 cities studied. The excess remained at 0.20% (0.18% to 0.22%) when restricting to days above the WHO guideline (100 µg/m3), corresponding to 6262 annual excess deaths (1413 to 11 065). Above more lenient thresholds for air quality standards in Europe, America, and China, excess mortality was 0.14%, 0.09%, and 0.05%, respectively.
CONCLUSIONS
Results suggest that ozone related mortality could be potentially reduced under stricter air quality standards. These findings have relevance for the implementation of efficient clean air interventions and mitigation strategies designed within national and international climate policies.
To assess short term mortality risks and excess mortality associated with exposure to ozone in several cities worldwide.
DESIGN
Two stage time series analysis.
SETTING
406 cities in 20 countries, with overlapping periods between 1985 and 2015, collected from the database of Multi-City Multi-Country Collaborative Research Network.
POPULATION
Deaths for all causes or for external causes only registered in each city within the study period. MAIN OUTCOME MEASURES: Daily total mortality (all or non-external causes only).
RESULTS
A total of 45 165 171 deaths were analysed in the 406 cities. On average, a 10 µg/m3 increase in ozone during the current and previous day was associated with an overall relative risk of mortality of 1.0018 (95% confidence interval 1.0012 to 1.0024). Some heterogeneity was found across countries, with estimates ranging from greater than 1.0020 in the United Kingdom, South Africa, Estonia, and Canada to less than 1.0008 in Mexico and Spain. Short term excess mortality in association with exposure to ozone higher than maximum background levels (70 µg/m3) was 0.26% (95% confidence interval 0.24% to 0.28%), corresponding to 8203 annual excess deaths (95% confidence interval 3525 to 12 840) across the 406 cities studied. The excess remained at 0.20% (0.18% to 0.22%) when restricting to days above the WHO guideline (100 µg/m3), corresponding to 6262 annual excess deaths (1413 to 11 065). Above more lenient thresholds for air quality standards in Europe, America, and China, excess mortality was 0.14%, 0.09%, and 0.05%, respectively.
CONCLUSIONS
Results suggest that ozone related mortality could be potentially reduced under stricter air quality standards. These findings have relevance for the implementation of efficient clean air interventions and mitigation strategies designed within national and international climate policies.
File(s)
| File | File Type | Format | Size | License | Publisher/Copright statement | Content | |
|---|---|---|---|---|---|---|---|
| VicedoCabrera BMJ 2020.pdf | Adobe PDF | 1.52 MB | Attribution (CC BY 4.0) | published |