St. Louis Bus, Steubenville and Atlanta StudiesEPA Grant Number: R827353C003
Subproject: this is subproject number 003 , established and managed by the Center Director under grant R827353
(EPA does not fund or establish subprojects; EPA awards and manages the overall grant for this center).
Center: EPA Harvard Center for Ambient Particle Health Effects
Center Director: Koutrakis, Petros
Title: St. Louis Bus, Steubenville and Atlanta Studies
Investigators: Gold, Diane R. , Stone, Peter
Current Investigators: Gold, Diane R. , Adamkiewicz, Gary , Coull, Brent , Dockery, Douglas W. , Dubowsky, S. , Luttmann-Gibson, Heike , Sarnat, Jeremy , Schwartz, Joel , Stone, Peter , Suh, Helen H. , Wheeler, A. , Zanobetti, Antonella
Institution: Harvard University
Current Institution: Harvard T.H. Chan School of Public Health , Harvard University
EPA Project Officer: Chung, Serena
Project Period: June 1, 1999 through May 31, 2005 (Extended to May 31, 2006)
Project Amount: Refer to main center abstract for funding details.
RFA: Airborne Particulate Matter (PM) Centers (1999) RFA Text | Recipients Lists
Research Category: Air Quality and Air Toxics , Particulate Matter , Air
Objective:The overall objective of this project is to improve our ability to characterize air pollutant exposures for health effects studies. This project is one of three research studies proposed under Theme I: Assessing Particle Exposures for Health Effects Studies that were based on personal, indoor, and outdoor particulate and gas concentrations that were measured as part of our previous or current exposure studies. This project was intended to address Particulate Matter Research Topics 2 and 8 identified by the National Research Council (NRC) - Exposures of Susceptible Populations and Assessing Effects of Hazardous Particulate Components.
We have conducted several studies of individuals with chronic obstructive pulmonary disease (COPD) living in Nashville, TN, and Boston, MA, and of older adults living in Baltimore, MD. Results from these studies show that personal exposures to particles may be lower or higher than corresponding outdoor concentrations, depending on the sampled cohort. In our study of individuals with COPD living in Nashville, for example, we found mean personal PM2.5 exposures to be lower than ambient concentrations and attributed these lower exposures to the cohort's low activity level (Bahadori, et al., 1999). Similar results were found for our older adult cohort living in Baltimore. It is possible that lower personal exposures for our older adult cohort also are due to lower activity levels. These issues will be examined in a subsequent analysis.
Results from Nashville and Baltimore differ from those reported for our Boston cohort of individuals with COPD, for which median personal PM2.5 and PM10 exposures were higher than corresponding outdoor concentrations. Findings for our Boston cohort were comparable to those observed for healthy individuals.
Approach:The focus of Theme I is: to assess human exposures to particles and gases in order to better understand their health effects. As such, research conducted as part of Theme I has four main objectives: (1) to determine the contribution of particles of indoor and outdoor origin to personal and indoor levels, (2) to characterize the inter- and intra-variability in personal particulate and gaseous exposures for particles of indoor and outdoor origin, (3) to quantify the effect of measurement error for fine particles and their co-pollutants (coarse mass and the criteria gases) on risk estimates from epidemiological studies, and (4) to examine the association between various exposure measures and heart function for sensitive individuals. To accomplish these objectives, Theme I includes three projects, each of which is based on data from previous and ongoing exposure studies conducted in several U.S. cities (Boston, Atlanta, Baltimore, and Los Angeles). Project Ia will use data collected in these studies to characterize the contribution of indoor and outdoor particles to both personal exposures and indoor particulate concentrations. As part of this effort, the central tendency and variability in the contribution of outdoor and indoor particles to personal exposures and indoor concentrations will be characterized. Factors affecting this variability will also be determined, as will factors affecting the relationship between outdoor concentrations and personal exposures to outdoor and indoor particles. Project Ib will also use exposure data collected in these and other studies to characterize four sources of exposure error: instrument error, spatial variation in ambient PM2.5, indoor/outdoor concentration differences, and personal factors. Once characterized, the city- and population-specific effects of exposure error on risk estimates will be determined, and the impact of differential exposure error for PM2.5 and its co-pollutants (coarse mass and the criteria gases) on risk estimates will be quantified. Project Ic will leverage exposure measurements made in on-going projects to examine the association between heart function (heart rate and heart rate variability) and various exposure measures for sensitive, free-living individuals. This association will be examined using at least four exposure measures: (1) outdoor PM2.5 concentrations, (2) indoor source-related indoor PM2.5 concentrations, (3) outdoor source-related personal PM2.5 exposures, and (4) personal PM2.5 exposures.
Publications and Presentations:Publications have been submitted on this subproject: View all 8 publications for this subproject | View all 200 publications for this center
Journal Articles:Journal Articles have been submitted on this subproject: View all 8 journal articles for this subproject | View all 197 journal articles for this center
Supplemental Keywords:particulate matter, PM2.5, PM10, air pollutants, particulates, health effects, exposure, ambient particles, susceptibility, metals, public policy, biology, engineering, epidemiology, toxicology, environmental chemistry, monitoring., RFA, Health, Scientific Discipline, Air, particulate matter, Toxicology, air toxics, Environmental Chemistry, Epidemiology, Risk Assessments, Susceptibility/Sensitive Population/Genetic Susceptibility, genetic susceptability, indoor air, tropospheric ozone, Biology, ambient air quality, health effects, interindividual variability, molecular epidemiology, monitoring, particulates, risk assessment, sensitive populations, chemical exposure, air pollutants, cardiopulmonary responses, health risks, human health effects, indoor exposure, stratospheric ozone, ambient air monitoring, exposure and effects, ambient air, ambient measurement methods, exposure, pulmonary disease, developmental effects, epidemelogy, respiratory disease, air pollution, ambient monitoring, Human Health Risk Assessment, particle exposure, biological mechanism , cardiopulmonary response, human exposure, inhalation, pulmonary, particulate exposure, ambient particle health effects, inhaled, atmospheric monitoring, human susceptibility, inhalation toxicology, differentiating outdoor and indoor sources, cardiopulmonary, indoor air quality, inhaled particles, human health, measurement methods , air quality, cardiovascular disease, dosimetry, human health risk, metals, respiratory, genetic susceptibility
Progress and Final Reports:
Main Center Abstract and Reports:R827353 EPA Harvard Center for Ambient Particle Health Effects
Subprojects under this Center: (EPA does not fund or establish subprojects; EPA awards and manages the overall grant for this center).
R827353C001 Assessing Human Exposures to Particulate and Gaseous Air Pollutants
R827353C002 Quantifying Exposure Error and its Effect on Epidemiological Studies
R827353C003 St. Louis Bus, Steubenville and Atlanta Studies
R827353C004 Examining Conditions That Predispose Towards Acute Adverse Effects of Particulate Exposures
R827353C005 Assessing Life-Shortening Associated with Exposure to Particulate Matter
R827353C006 Investigating Chronic Effects of Exposure to Particulate Matter
R827353C007 Determining the Effects of Particle Characteristics on Respiratory Health of Children
R827353C008 Differentiating the Roles of Particle Size, Particle Composition, and Gaseous Co-Pollutants on Cardiac Ischemia
R827353C009 Assessing Deposition of Ambient Particles in the Lung
R827353C010 Relating Changes in Blood Viscosity, Other Clotting Parameters, Heart Rate, and Heart Rate Variability to Particulate and Criteria Gas Exposures
R827353C011 Studies of Oxidant Mechanisms
R827353C012 Modeling Relationships Between Mobile Source Particle Emissions and Population Exposures
R827353C013 Toxicological Evaluation of Realistic Emissions of Source Aerosols (TERESA) Study
R827353C014 Identifying the Physical and Chemical Properties of Particulate Matter Responsible for the Observed Adverse Health Effects
R827353C015 Research Coordination Core
R827353C016 Analytical and Facilities Core
R827353C017 Technology Development and Transfer Core