Interactive effects of ambient fine particulate matter and ozone on daily mortality in 372 cities: two stage time series analysis.
Options
BORIS DOI
Publisher DOI
PubMed ID
37793695
Description
OBJECTIVE
To investigate potential interactive effects of fine particulate matter (PM2.5) and ozone (O3) on daily mortality at global level.
DESIGN
Two stage time series analysis.
SETTING
372 cities across 19 countries and regions.
POPULATION
Daily counts of deaths from all causes, cardiovascular disease, and respiratory disease.
MAIN OUTCOME MEASURE
Daily mortality data during 1994-2020. Stratified analyses by co-pollutant exposures and synergy index (>1 denotes the combined effect of pollutants is greater than individual effects) were applied to explore the interaction between PM2.5 and O3 in association with mortality.
RESULTS
During the study period across the 372 cities, 19.3 million deaths were attributable to all causes, 5.3 million to cardiovascular disease, and 1.9 million to respiratory disease. The risk of total mortality for a 10 μg/m3 increment in PM2.5 (lag 0-1 days) ranged from 0.47% (95% confidence interval 0.26% to 0.67%) to 1.25% (1.02% to 1.48%) from the lowest to highest fourths of O3 concentration; and for a 10 μg/m3 increase in O3 ranged from 0.04% (-0.09% to 0.16%) to 0.29% (0.18% to 0.39%) from the lowest to highest fourths of PM2.5 concentration, with significant differences between strata (P for interaction <0.001). A significant synergistic interaction was also identified between PM2.5 and O3 for total mortality, with a synergy index of 1.93 (95% confidence interval 1.47 to 3.34). Subgroup analyses showed that interactions between PM2.5 and O3 on all three mortality endpoints were more prominent in high latitude regions and during cold seasons.
CONCLUSION
The findings of this study suggest a synergistic effect of PM2.5 and O3 on total, cardiovascular, and respiratory mortality, indicating the benefit of coordinated control strategies for both pollutants.
To investigate potential interactive effects of fine particulate matter (PM2.5) and ozone (O3) on daily mortality at global level.
DESIGN
Two stage time series analysis.
SETTING
372 cities across 19 countries and regions.
POPULATION
Daily counts of deaths from all causes, cardiovascular disease, and respiratory disease.
MAIN OUTCOME MEASURE
Daily mortality data during 1994-2020. Stratified analyses by co-pollutant exposures and synergy index (>1 denotes the combined effect of pollutants is greater than individual effects) were applied to explore the interaction between PM2.5 and O3 in association with mortality.
RESULTS
During the study period across the 372 cities, 19.3 million deaths were attributable to all causes, 5.3 million to cardiovascular disease, and 1.9 million to respiratory disease. The risk of total mortality for a 10 μg/m3 increment in PM2.5 (lag 0-1 days) ranged from 0.47% (95% confidence interval 0.26% to 0.67%) to 1.25% (1.02% to 1.48%) from the lowest to highest fourths of O3 concentration; and for a 10 μg/m3 increase in O3 ranged from 0.04% (-0.09% to 0.16%) to 0.29% (0.18% to 0.39%) from the lowest to highest fourths of PM2.5 concentration, with significant differences between strata (P for interaction <0.001). A significant synergistic interaction was also identified between PM2.5 and O3 for total mortality, with a synergy index of 1.93 (95% confidence interval 1.47 to 3.34). Subgroup analyses showed that interactions between PM2.5 and O3 on all three mortality endpoints were more prominent in high latitude regions and during cold seasons.
CONCLUSION
The findings of this study suggest a synergistic effect of PM2.5 and O3 on total, cardiovascular, and respiratory mortality, indicating the benefit of coordinated control strategies for both pollutants.
Date of Publication
2023-10-04
Publication Type
Article
Subject(s)
600 - Technology::610 - Medicine & health
300 - Social sciences, sociology & anthropology::360 - Social problems & social services
Language(s)
en
Contributor(s)
Liu, Cong | |
Chen, Renjie | |
Sera, Francesco | |
Guo, Yuming | |
Tong, Shilu | |
Lavigne, Eric | |
Correa, Patricia Matus | |
Ortega, Nicolás Valdés | |
Achilleos, Souzana | |
Roye, Dominic | |
Jaakkola, Jouni Jk | |
Ryti, Niilo | |
Pascal, Mathilde | |
Schneider, Alexandra | |
Breitner, Susanne | |
Entezari, Alireza | |
Mayvaneh, Fatemeh | |
Raz, Raanan | |
Honda, Yasushi | |
Hashizume, Masahiro | |
Ng, Chris Fook Sheng | |
Gaio, Vânia | |
Madureira, Joana | |
Holobaca, Iulian-Horia | |
Tobias, Aurelio | |
Íñiguez, Carmen | |
Guo, Yue Leon | |
Pan, Shih-Chun | |
Masselot, Pierre | |
Bell, Michelle L | |
Zanobetti, Antonella | |
Schwartz, Joel | |
Gasparrini, Antonio | |
Kan, Haidong |
Additional Credits
Institut für Sozial- und Präventivmedizin (ISPM) - Climate Change & Health
Series
BMJ
Publisher
BMJ Publishing Group
ISSN
1756-1833
Access(Rights)
open.access