Long-Term Exposure to Low-Level PM2.5 and Mortality: Investigation of Heterogeneity by Harmonizing Analyses in Large Cohort Studies in Canada, United States, and Europe

J. Chen; D. Braun; T. Christidis; M. Cork; S. Rodopoulou; E. Samoli; M. Stafoggia; K. Wolf; X. Wu; W. Yuchi; Z. J. Andersen; R. Atkinson; M. Bauwelinck; K. de Hoogh; N. A. H. Janssen; K. Katsouyanni; J. O. Klompmaker; D. T. Kristoffersen; Y. H. Lim; B. Oftedal; M. Strak; D. Vienneau; J. Zhang; R. T. Burnett; G. Hoek; F. Dominici; M. Brauer; B. Brunekreef

doi:10.1289/ehp12141

Long-Term Exposure to Low-Level PM2.5 and Mortality: Investigation of Heterogeneity by Harmonizing Analyses in Large Cohort Studies in Canada, United States, and Europe

J. Chen, D. Braun, T. Christidis, M. Cork, S. Rodopoulou, E. Samoli, M. Stafoggia, K. Wolf, X. Wu, W. Yuchi, Z. J. Andersen, R. Atkinson, M. Bauwelinck, K. de Hoogh, N. A. H. Janssen, K. Katsouyanni, J. O. Klompmaker, D. T. Kristoffersen, Y. H. Lim, B. OftedalM. Strak, D. Vienneau, J. Zhang, R. T. Burnett, G. Hoek, F. Dominici, M. Brauer, B. Brunekreef

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

Background: Studies across the globe generally reported increased mortality risks associated with particulate matter with aerodynamic diameter ≤2:5 μm (PM_2:5) exposure with large heterogeneity in the magnitude of reported associations and the shape of concentration-response functions (CRFs). We aimed to evaluate the impact of key study design factors (including confounders, applied exposure model, population age, and outcome definition) on PM2:5 effect estimates by harmonizing analyses on three previously published large studies in Canada [Mortality-Air Pollution Associations in Low Exposure Environments (MAPLE), 1991-2016], the United States (Medicare, 2000-2016), and Europe [Effects of Low-Level Air Pollution: A Study in Europe (ELAPSE), 2000-2016] as much as possible. Methods: We harmonized the study populations to individuals 65+ years of age, applied the same satellite-derived PM2:5 exposure estimates, and selected the same sets of potential confounders and the same outcome. We evaluated whether differences in previously published effect estimates across cohorts were reduced after harmonization among these factors. Additional analyses were conducted to assess the influence of key design features on estimated risks, including adjusted covariates and exposure assessment method. A combined CRF was assessed with meta-analysis based on the extended shape-constrained health impact function (eSCHIF). Results: More than 81 million participants were included, contributing 692 million person-years of follow-up. Hazard ratios and 95% confidence intervals (CIs) for all-cause mortality associated with a 5-lg=m³ increase in PM_2:5 were 1.039 (1.032, 1.046) in MAPLE, 1.025 (1.021, 1.029) in Medicare, and 1.041 (1.014, 1.069) in ELAPSE. Applying a harmonized analytical approach marginally reduced difference in the observed associations across the three studies. Magnitude of the association was affected by the adjusted covariates, exposure assessment methodology, age of the population, and marginally by outcome definition. Shape of the CRFs differed across cohorts but generally showed associations down to the lowest observed PM2:5 levels. A common CRF suggested a monotonically increased risk down to the lowest exposure level.

Original language	English
Journal	Environmental Health Perspectives
Volume	131
Issue number	12
DOIs	https://doi.org/10.1289/ehp12141
Publication status	Published - 2023
Externally published	Yes

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Chen, J., Braun, D., Christidis, T., Cork, M., Rodopoulou, S., Samoli, E., Stafoggia, M., Wolf, K., Wu, X., Yuchi, W., Andersen, Z. J., Atkinson, R., Bauwelinck, M., de Hoogh, K., Janssen, N. A. H., Katsouyanni, K., Klompmaker, J. O., Kristoffersen, D. T., Lim, Y. H., ... Brunekreef, B. (2023). Long-Term Exposure to Low-Level PM2.5 and Mortality: Investigation of Heterogeneity by Harmonizing Analyses in Large Cohort Studies in Canada, United States, and Europe. Environmental Health Perspectives, 131(12). https://doi.org/10.1289/ehp12141

@article{0234243da5a9494b9b76f08240e195d6,

title = "Long-Term Exposure to Low-Level PM2.5 and Mortality: Investigation of Heterogeneity by Harmonizing Analyses in Large Cohort Studies in Canada, United States, and Europe",

abstract = "Background: Studies across the globe generally reported increased mortality risks associated with particulate matter with aerodynamic diameter ≤2:5 μm (PM2:5) exposure with large heterogeneity in the magnitude of reported associations and the shape of concentration-response functions (CRFs). We aimed to evaluate the impact of key study design factors (including confounders, applied exposure model, population age, and outcome definition) on PM2:5 effect estimates by harmonizing analyses on three previously published large studies in Canada [Mortality-Air Pollution Associations in Low Exposure Environments (MAPLE), 1991-2016], the United States (Medicare, 2000-2016), and Europe [Effects of Low-Level Air Pollution: A Study in Europe (ELAPSE), 2000-2016] as much as possible. Methods: We harmonized the study populations to individuals 65+ years of age, applied the same satellite-derived PM2:5 exposure estimates, and selected the same sets of potential confounders and the same outcome. We evaluated whether differences in previously published effect estimates across cohorts were reduced after harmonization among these factors. Additional analyses were conducted to assess the influence of key design features on estimated risks, including adjusted covariates and exposure assessment method. A combined CRF was assessed with meta-analysis based on the extended shape-constrained health impact function (eSCHIF). Results: More than 81 million participants were included, contributing 692 million person-years of follow-up. Hazard ratios and 95% confidence intervals (CIs) for all-cause mortality associated with a 5-lg=m3 increase in PM2:5 were 1.039 (1.032, 1.046) in MAPLE, 1.025 (1.021, 1.029) in Medicare, and 1.041 (1.014, 1.069) in ELAPSE. Applying a harmonized analytical approach marginally reduced difference in the observed associations across the three studies. Magnitude of the association was affected by the adjusted covariates, exposure assessment methodology, age of the population, and marginally by outcome definition. Shape of the CRFs differed across cohorts but generally showed associations down to the lowest observed PM2:5 levels. A common CRF suggested a monotonically increased risk down to the lowest exposure level.",

author = "J. Chen and D. Braun and T. Christidis and M. Cork and S. Rodopoulou and E. Samoli and M. Stafoggia and K. Wolf and X. Wu and W. Yuchi and Andersen, {Z. J.} and R. Atkinson and M. Bauwelinck and {de Hoogh}, K. and Janssen, {N. A. H.} and K. Katsouyanni and Klompmaker, {J. O.} and Kristoffersen, {D. T.} and Lim, {Y. H.} and B. Oftedal and M. Strak and D. Vienneau and J. Zhang and Burnett, {R. T.} and G. Hoek and F. Dominici and M. Brauer and B. Brunekreef",

year = "2023",

doi = "10.1289/ehp12141",

language = "English",

volume = "131",

journal = "Environmental Health Perspectives",

issn = "0091-6765",

publisher = "Public Health Services, US Dept of Health and Human Services",

number = "12",

}

Chen, J, Braun, D, Christidis, T, Cork, M, Rodopoulou, S, Samoli, E, Stafoggia, M, Wolf, K, Wu, X, Yuchi, W, Andersen, ZJ, Atkinson, R, Bauwelinck, M, de Hoogh, K, Janssen, NAH, Katsouyanni, K, Klompmaker, JO, Kristoffersen, DT, Lim, YH, Oftedal, B, Strak, M, Vienneau, D, Zhang, J, Burnett, RT, Hoek, G, Dominici, F, Brauer, M & Brunekreef, B 2023, 'Long-Term Exposure to Low-Level PM2.5 and Mortality: Investigation of Heterogeneity by Harmonizing Analyses in Large Cohort Studies in Canada, United States, and Europe', Environmental Health Perspectives, vol. 131, no. 12. https://doi.org/10.1289/ehp12141

TY - JOUR

T1 - Long-Term Exposure to Low-Level PM2.5 and Mortality: Investigation of Heterogeneity by Harmonizing Analyses in Large Cohort Studies in Canada, United States, and Europe

AU - Chen, J.

AU - Braun, D.

AU - Christidis, T.

AU - Cork, M.

AU - Rodopoulou, S.

AU - Samoli, E.

AU - Stafoggia, M.

AU - Wolf, K.

AU - Wu, X.

AU - Yuchi, W.

AU - Andersen, Z. J.

AU - Atkinson, R.

AU - Bauwelinck, M.

AU - de Hoogh, K.

AU - Janssen, N. A. H.

AU - Katsouyanni, K.

AU - Klompmaker, J. O.

AU - Kristoffersen, D. T.

AU - Lim, Y. H.

AU - Oftedal, B.

AU - Strak, M.

AU - Vienneau, D.

AU - Zhang, J.

AU - Burnett, R. T.

AU - Hoek, G.

AU - Dominici, F.

AU - Brauer, M.

AU - Brunekreef, B.

PY - 2023

Y1 - 2023

N2 - Background: Studies across the globe generally reported increased mortality risks associated with particulate matter with aerodynamic diameter ≤2:5 μm (PM2:5) exposure with large heterogeneity in the magnitude of reported associations and the shape of concentration-response functions (CRFs). We aimed to evaluate the impact of key study design factors (including confounders, applied exposure model, population age, and outcome definition) on PM2:5 effect estimates by harmonizing analyses on three previously published large studies in Canada [Mortality-Air Pollution Associations in Low Exposure Environments (MAPLE), 1991-2016], the United States (Medicare, 2000-2016), and Europe [Effects of Low-Level Air Pollution: A Study in Europe (ELAPSE), 2000-2016] as much as possible. Methods: We harmonized the study populations to individuals 65+ years of age, applied the same satellite-derived PM2:5 exposure estimates, and selected the same sets of potential confounders and the same outcome. We evaluated whether differences in previously published effect estimates across cohorts were reduced after harmonization among these factors. Additional analyses were conducted to assess the influence of key design features on estimated risks, including adjusted covariates and exposure assessment method. A combined CRF was assessed with meta-analysis based on the extended shape-constrained health impact function (eSCHIF). Results: More than 81 million participants were included, contributing 692 million person-years of follow-up. Hazard ratios and 95% confidence intervals (CIs) for all-cause mortality associated with a 5-lg=m3 increase in PM2:5 were 1.039 (1.032, 1.046) in MAPLE, 1.025 (1.021, 1.029) in Medicare, and 1.041 (1.014, 1.069) in ELAPSE. Applying a harmonized analytical approach marginally reduced difference in the observed associations across the three studies. Magnitude of the association was affected by the adjusted covariates, exposure assessment methodology, age of the population, and marginally by outcome definition. Shape of the CRFs differed across cohorts but generally showed associations down to the lowest observed PM2:5 levels. A common CRF suggested a monotonically increased risk down to the lowest exposure level.

AB - Background: Studies across the globe generally reported increased mortality risks associated with particulate matter with aerodynamic diameter ≤2:5 μm (PM2:5) exposure with large heterogeneity in the magnitude of reported associations and the shape of concentration-response functions (CRFs). We aimed to evaluate the impact of key study design factors (including confounders, applied exposure model, population age, and outcome definition) on PM2:5 effect estimates by harmonizing analyses on three previously published large studies in Canada [Mortality-Air Pollution Associations in Low Exposure Environments (MAPLE), 1991-2016], the United States (Medicare, 2000-2016), and Europe [Effects of Low-Level Air Pollution: A Study in Europe (ELAPSE), 2000-2016] as much as possible. Methods: We harmonized the study populations to individuals 65+ years of age, applied the same satellite-derived PM2:5 exposure estimates, and selected the same sets of potential confounders and the same outcome. We evaluated whether differences in previously published effect estimates across cohorts were reduced after harmonization among these factors. Additional analyses were conducted to assess the influence of key design features on estimated risks, including adjusted covariates and exposure assessment method. A combined CRF was assessed with meta-analysis based on the extended shape-constrained health impact function (eSCHIF). Results: More than 81 million participants were included, contributing 692 million person-years of follow-up. Hazard ratios and 95% confidence intervals (CIs) for all-cause mortality associated with a 5-lg=m3 increase in PM2:5 were 1.039 (1.032, 1.046) in MAPLE, 1.025 (1.021, 1.029) in Medicare, and 1.041 (1.014, 1.069) in ELAPSE. Applying a harmonized analytical approach marginally reduced difference in the observed associations across the three studies. Magnitude of the association was affected by the adjusted covariates, exposure assessment methodology, age of the population, and marginally by outcome definition. Shape of the CRFs differed across cohorts but generally showed associations down to the lowest observed PM2:5 levels. A common CRF suggested a monotonically increased risk down to the lowest exposure level.

U2 - 10.1289/ehp12141

DO - 10.1289/ehp12141

M3 - Article

SN - 0091-6765

VL - 131

JO - Environmental Health Perspectives

JF - Environmental Health Perspectives

IS - 12

ER -

Long-Term Exposure to Low-Level PM2.5 and Mortality: Investigation of Heterogeneity by Harmonizing Analyses in Large Cohort Studies in Canada, United States, and Europe

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