Ambient [PM.sub.2.5], [O.sub.3], and N[O.sub.2] exposures and associations with mortality over 16 years of follow-up in the Canadian Census Health and Environment Cohort

BACKGROUND: Few studies examining the associations between long-term exposure to ambient air pollution and mortality have considered multiple pollutants when assessing changes in exposure due to residential mobility during follow-up. OBJECTIVE: We investigated associations between cause-specific mor...

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Bibliographic Details
Published in:Environmental health perspectives 2015-11, Vol.123 (11), p.1180
Main Authors: Crouse, Dan L, Peters, Paul A, Hystad, Perry, Brook, Jeffrey R, van Donkelaar, Aaron, Martin, Randall V, Villeneuve, Paul J, Jerrett, Michael, Goldberg, Mark S, Pope, C. Arden, III, Brauer, Michael, Brook, Robert D, Robichaud, Alain, Menard, Richard, Burnett, Richard T
Format: Article
Language:English
Subjects:
Air pollution
Canada
Environmental aspects
Health aspects
Mortality
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Summary:BACKGROUND: Few studies examining the associations between long-term exposure to ambient air pollution and mortality have considered multiple pollutants when assessing changes in exposure due to residential mobility during follow-up. OBJECTIVE: We investigated associations between cause-specific mortality and ambient concentrations of fine particulate matter ([less than or equal to] 2.5 [micro]m; [PM.sub.2.5]), ozone ([O.sub.3]), and nitrogen dioxide (N[O.sub.2]) in a national cohort of about 2.5 million Canadians. METHODS: We assigned estimates of annual concentrations of these pollutants to the residential postal codes of subjects for each year during 16 years of follow-up. Historical tax data allowed us to track subjects' residential postal code annually. We estimated hazard ratios (HRs) for each pollutant separately and adjusted for the other pollutants. We also estimated the product of the three HRs as a measure of the cumulative association with mortality for several causes of death for an increment of the mean minus the 5th percentile of each pollutant: 5.0 [micro]g/[m.sup.3] for [PM.sub.2.5], 9.5 ppb for [O.sub.3], and 8.1 ppb for N[O.sub.2]. RESULTS: [PM.sub.2.5], [O.sub.3], and N[O.sub.2] were associated with nonaccidental and cause-specific mortality in single-pollutant models. Exposure to [PM.sub.2.5] alone was not sufficient to fully characterize the toxicity of the atmospheric mix or to fully explain the risk of mortality associated with exposure to ambient pollution. Assuming additive associations, the estimated HR for nonaccidental mortality corresponding to a change in exposure from the mean to the 5th percentile for all three pollutants together was 1.075 (95% CI: 1.067, 1.084). Accounting for residential mobility had only a limited impact on the association between mortality and [PM.sub.2.5] and [O.sub.3], but increased associations with N[O.sub.2]. CONCLUSIONS: In this large, national-level cohort, we found positive associations between several common causes of death and exposure to [PM.sub.2.5], [O.sub.3], and N[O.sub.2].
ISSN:0091-6765
1552-9924
DOI:10.1289/ehp.1409276