A Comparison of Risk Estimates for the Effect of Short-Term Exposure to PM, NO2 and CO on Cardiovascular Hospitalizations and Emergency Department Visits: Effect Size Modeling of Study Findings

A Comparison of Risk Estimates for the Effect of Short-Term Exposure to PM, NO2 and CO on Cardiovascular Hospitalizations and Emergency Department Visits: Effect Size Modeling of Study Findings

Although particulate matter (PM), nitrogen dioxide (NO2) and carbon monoxide (CO) typically exist as part of a complex air pollution mixture, the evidence linking these pollutants to health effects is evaluated separately in the scientific and policy reviews of the National Ambient Air Quality Stand...

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Main Authors: Lindsay Wichers Stanek, Thomas J. Luben, Genee Smith, Thomas C. Long, Dennis Kotchmar, Doug Johns, Allen Davis, Mary Ross, Barbara Buckley, David Svendsgaard, Ellen Kirrane
Format: Article
Language:English
Published: MDPI AG 2011-12-01
Series:Atmosphere
Subjects:
hospital admissions
air pollution
PM
NO2
CO
Online Access:http://www.mdpi.com/2073-4433/2/4/688/
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spelling doaj-ae353195c9f34109918baab777a7998c2020-11-24T22:05:52ZengMDPI AGAtmosphere2073-44332011-12-012468870110.3390/atmos2040688A Comparison of Risk Estimates for the Effect of Short-Term Exposure to PM, NO2 and CO on Cardiovascular Hospitalizations and Emergency Department Visits: Effect Size Modeling of Study FindingsLindsay Wichers StanekThomas J. LubenGenee SmithThomas C. LongDennis KotchmarDoug JohnsAllen DavisMary RossBarbara BuckleyDavid SvendsgaardEllen KirraneAlthough particulate matter (PM), nitrogen dioxide (NO2) and carbon monoxide (CO) typically exist as part of a complex air pollution mixture, the evidence linking these pollutants to health effects is evaluated separately in the scientific and policy reviews of the National Ambient Air Quality Standards (NAAQS). The objective of this analysis was to use meta-regression methods to model effect estimates for several individual yet correlated NAAQS pollutants in an effort to identify factors that explain differences in the effect sizes across studies and across pollutants. We expected that our consideration of the evidence for several correlated pollutants in parallel could lead to insights regarding exposure to the pollutant mixture. We focused on studies of hospital admissions for congestive heart failure (CHF) and ischemic heart disease (IHD), which have played an important role in the evaluation of the scientific evidence communicated in the PM, NO2, and CO Integrated Science Assessments (ISAs). Of the studies evaluated, 11 CHF studies and 21 IHD studies met our inclusion requirements. The size of the risk estimates was explained by factors related to the pollution mixture, study methods, and monitoring network characteristics. Our findings suggest that additional analyses focusing on understanding differences in effect sizes across geographic areas with different pollution mixtures and monitor network designs may improve our understanding of the independent and combined effects of correlated pollutants.http://www.mdpi.com/2073-4433/2/4/688/hospital admissionsair pollutionPMNO2CO
collection DOAJ
language English
format Article
sources DOAJ
author Lindsay Wichers Stanek
Thomas J. Luben
Genee Smith
Thomas C. Long
Dennis Kotchmar
Doug Johns
Allen Davis
Mary Ross
Barbara Buckley
David Svendsgaard
Ellen Kirrane
spellingShingle Lindsay Wichers Stanek
Thomas J. Luben
Genee Smith
Thomas C. Long
Dennis Kotchmar
Doug Johns
Allen Davis
Mary Ross
Barbara Buckley
David Svendsgaard
Ellen Kirrane
A Comparison of Risk Estimates for the Effect of Short-Term Exposure to PM, NO2 and CO on Cardiovascular Hospitalizations and Emergency Department Visits: Effect Size Modeling of Study Findings
Atmosphere
hospital admissions
air pollution
PM
NO2
CO
author_facet Lindsay Wichers Stanek
Thomas J. Luben
Genee Smith
Thomas C. Long
Dennis Kotchmar
Doug Johns
Allen Davis
Mary Ross
Barbara Buckley
David Svendsgaard
Ellen Kirrane
author_sort Lindsay Wichers Stanek
title A Comparison of Risk Estimates for the Effect of Short-Term Exposure to PM, NO2 and CO on Cardiovascular Hospitalizations and Emergency Department Visits: Effect Size Modeling of Study Findings
title_short A Comparison of Risk Estimates for the Effect of Short-Term Exposure to PM, NO2 and CO on Cardiovascular Hospitalizations and Emergency Department Visits: Effect Size Modeling of Study Findings
title_full A Comparison of Risk Estimates for the Effect of Short-Term Exposure to PM, NO2 and CO on Cardiovascular Hospitalizations and Emergency Department Visits: Effect Size Modeling of Study Findings
title_fullStr A Comparison of Risk Estimates for the Effect of Short-Term Exposure to PM, NO2 and CO on Cardiovascular Hospitalizations and Emergency Department Visits: Effect Size Modeling of Study Findings
title_full_unstemmed A Comparison of Risk Estimates for the Effect of Short-Term Exposure to PM, NO2 and CO on Cardiovascular Hospitalizations and Emergency Department Visits: Effect Size Modeling of Study Findings
title_sort comparison of risk estimates for the effect of short-term exposure to pm, no2 and co on cardiovascular hospitalizations and emergency department visits: effect size modeling of study findings
publisher MDPI AG
series Atmosphere
issn 2073-4433
publishDate 2011-12-01
description Although particulate matter (PM), nitrogen dioxide (NO2) and carbon monoxide (CO) typically exist as part of a complex air pollution mixture, the evidence linking these pollutants to health effects is evaluated separately in the scientific and policy reviews of the National Ambient Air Quality Standards (NAAQS). The objective of this analysis was to use meta-regression methods to model effect estimates for several individual yet correlated NAAQS pollutants in an effort to identify factors that explain differences in the effect sizes across studies and across pollutants. We expected that our consideration of the evidence for several correlated pollutants in parallel could lead to insights regarding exposure to the pollutant mixture. We focused on studies of hospital admissions for congestive heart failure (CHF) and ischemic heart disease (IHD), which have played an important role in the evaluation of the scientific evidence communicated in the PM, NO2, and CO Integrated Science Assessments (ISAs). Of the studies evaluated, 11 CHF studies and 21 IHD studies met our inclusion requirements. The size of the risk estimates was explained by factors related to the pollution mixture, study methods, and monitoring network characteristics. Our findings suggest that additional analyses focusing on understanding differences in effect sizes across geographic areas with different pollution mixtures and monitor network designs may improve our understanding of the independent and combined effects of correlated pollutants.
topic hospital admissions
air pollution
PM
NO2
CO
url http://www.mdpi.com/2073-4433/2/4/688/
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