Author: Cakmak, Sabit; Dales, Robert; Kauri, Lisa Marie; Mahmud, Mamun; Van Ryswyk, Keith; Vanos, Jennifer; Liu, Ling; Kumarathasan, Premkumari; Thomson, Errol; Vincent, Renaud; Weichenthal, Scott
Title: Metal composition of fine particulate air pollution and acute changes in cardiorespiratory physiology. Cord-id: fm6xep74 Document date: 2014_1_1
ID: fm6xep74
Snippet: BACKGROUND Studying the physiologic effects of components of fine particulate mass (PM2.5) could contribute to a better understanding of the nature of toxicity of air pollution. OBJECTIVES We examined the relation between acute changes in cardiovascular and respiratory function, and PM2.5-associated-metals. METHODS Using generalized linear mixed models, daily changes in ambient PM2.5-associated metals were compared to daily changes in physiologic measures in 59 healthy subjects who spent 5-days
Document: BACKGROUND Studying the physiologic effects of components of fine particulate mass (PM2.5) could contribute to a better understanding of the nature of toxicity of air pollution. OBJECTIVES We examined the relation between acute changes in cardiovascular and respiratory function, and PM2.5-associated-metals. METHODS Using generalized linear mixed models, daily changes in ambient PM2.5-associated metals were compared to daily changes in physiologic measures in 59 healthy subjects who spent 5-days near a steel plant and 5-days on a college campus. RESULTS Interquartile increases in calcium, cadmium, lead, strontium, tin, vanadium and zinc were associated with statistically significant increases in heart rate of 1-3 beats per minute, increases of 1-3 mmHg in blood pressure and/or lung function decreases of up to 4% for total lung capacity. CONCLUSION Metals contained in PM2.5 were found to be associated with acute changes in cardiovascular and respiratory physiology.
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