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Assessing Confounding, Effect Modification, and Thresholds in the Association between Ambient Particles and Daily Deaths Joel Schwartz Environmental Epidemiology Program, Department of Environmental Health, Harvard School of Public Health, Boston, Massachusetts, USA Abstract I examined the relationship between daily deaths and airborne particles in 10 U.S. cities with varying climatic conditions and seasons in which particle concentrations were high. Airborne particles were associated with significant increases in daily deaths [0.67% increase for a 10 µg/m3 increase in particles ; 95% confidence interval (CI) , 0.52-0.81%]. This association was the same in summer and winter. To examine potential confounding by other pollutants, I regressed city- and season-specific effect sizes against the relationship between airborne particles and other pollutants. Controlling for other pollutants did not substantially (or significantly) change the estimated effect of airborne particles. Socioeconomic differences between cities likewise did not modify the effect. The increase in daily deaths that occurred out of hospitals (0.89% per 10 µg/m3 ; CI, 0.67-1.10%) was substantially greater than the increase in deaths in hospitals (0.49% ; CI, 0.31-0.68%) . This is consistent with results previously reported in Philadelphia, Pennsylvania, and suggests that the particle-associated deaths are not just being brought forward by a few days. It is also consistent with recent animal and human studies of the mechanisms of particle toxicity. Key words: airborne particles, air pollution, climate mortality. Environ Health Perspect 108:563-568 (2000) . [Online 3 May 2000] http://ehpnet1.niehs.nih.gov/docs/2000/108p563-568schwartz/ abstract.html Address correspondence to J. Schwartz, Environmental Epidemiology Program, Department of Environmental Health, Harvard School of Public Health, 665 Huntington Avenue, Boston, MA 02115 USA. Telephone: (617) 432-1245. Fax: (617) 277-2382. E-mail: jschwrtz@hsph.harvard.edu This work was supported in part by NIEHS grant ES 07410 and by an EPA PM Research Center Award. Received 30 June 1999 ; accepted 14 January 2000. The full version of this article is available for free in HTML or PDF formats. |
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