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Acute effects of fine particulate air pollution on ST segment height: A longitudinal study

dc.contributor.authorHe, Fan
dc.contributor.authorShaffer, Michele L.
dc.contributor.authorRodriguez-Colon, Sol
dc.contributor.authorBixler, Edward O.
dc.contributor.authorVgontzas, Alexandros N.
dc.contributor.authorWilliams, Ronald W.
dc.contributor.authorWu, Rongling
dc.contributor.authorCascio, Wayne E.
dc.contributor.authorLiao, Duanping
dc.date.accessioned2016-06-03T16:40:17Z
dc.date.available2016-06-03T16:40:17Z
dc.date.issued2010
dc.description.abstractBackground The mechanisms for the relationship between particulate air pollution and cardiac disease are not fully understood. Air pollution-induced myocardial ischemia is one of the potentially important mechanisms. Methods We investigate the acute effects and the time course of fine particulate pollution (PM2.5) on myocardium ischemic injury as assessed by ST-segment height in a community-based sample of 106 healthy non-smokers. Twenty-four hour beat-to-beat electrocardiogram (ECG) data were obtained using a high resolution 12-lead Holter ECG system. After visually identifying and removing all the artifacts and arrhythmic beats, we calculated beat-to-beat ST-height from ten leads (inferior leads II, III, and aVF; anterior leads V3 and V4; septal leads V1 and V2; lateral leads I, V5, and V6,). Individual-level 24-hour real-time PM2.5 concentration was obtained by a continuous personal PM2.5 monitor. We then calculated, on a 30-minute basis, the corresponding time-of-the-day specific average exposure to PM2.5 for each participant. Distributed lag models under a linear mixed-effects models framework were used to assess the regression coefficients between 30-minute PM2.5 and ST-height measures from each lead; i.e., one lag indicates a 30-minute separation between the exposure and outcome. Results The mean (SD) age was 56 (7.6) years, with 41% male and 74% white. The mean (SD) PM2.5 exposure was 14 (22) μg/m3. All inferior leads (II, III, and aVF) and two out of three lateral leads (I and V6), showed a significant association between higher PM2.5 levels and higher ST-height. Most of the adverse effects occurred within two hours after PM2.5 exposure. The multivariable adjusted regression coefficients β (95% CI) of the cumulative effect due to a 10 μg/m3 increase in Lag 0-4 PM2.5 on ST-I, II, III, aVF and ST-V6 were 0.29 (0.01-0.56) μV, 0.79 (0.20-1.39) μV, 0.52 (0.01-1.05) μV, 0.65 (0.11-1.19) μV, and 0.58 (0.07-1.09) μV, respectively, with all p < 0.05. Conclusions Increased PM2.5 concentration is associated with immediate increase in ST-segment height in inferior and lateral leads, generally within two hours. Such an acute effect of PM2.5 may contribute to increased potential for regional myocardial ischemic injury among healthy individuals.en_US
dc.identifier.citationEnvironmental Health; 9: p. 68-68en_US
dc.identifier.doi10.1186/1476-069X-9-68
dc.identifier.issn1476-069X
dc.identifier.pmidpmc2989950en_US
dc.identifier.urihttp://hdl.handle.net/10342/5460
dc.relation.urihttp://ehjournal.biomedcentral.com/articles/10.1186/1476-069X-9-68en_US
dc.titleAcute effects of fine particulate air pollution on ST segment height: A longitudinal studyen_US
dc.typeArticleen_US
ecu.journal.nameEnvironmental Healthen_US
ecu.journal.pages68-68en_US
ecu.journal.volume9en_US

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