United States Environmental Protection Agency	Office of Research and Development

National Exposure Research Laboratory
Research Abstract

Government Performance Results Act Goal: Clean Air

Significant Research Findings:

Particulate Matter Longitudinal Panel Studies

Scientific Problem The NERL Particulate Matter Longitudinal Panel Studies were used to
and Policy Issues	characterize temporal variation of personal exposure to PM and related

co-pollutants, including that of PM measured at ambient sites. These
studies were fundamental in understanding the associations between
personal exposure to PM, PM measured at ambient sites, and health
effects, especially for susceptible sub-populations. Projects were
designed to evaluate different sub-populations, regions of the country,
seasons, and housing conditions. Susceptible sub-populations included
chronic obstructive-pulmonary disease (COPD) patients, individuals
with cardiovascular disease, the elderly, and asthmatics. These studies
represented a cooperative effort between the NERL and other scientific
organizations. Collected data is being used to develop databases
representing actual human exposures. These data fill a critical
scientific need for the Agency in identifying potentially important
exposure variables, as well as providing inputs for modeling and risk
assessment.

Research Approach The NERL Particulate Matter Longitudinal Panel Studies represent a

series of human exposure studies implemented by various internal US
EPA organizations (The NERL and the National Health and
Environmental Effects Research Laboratory) as well as Agency-
sponsored external research organizations (Harvard University, New
York University, University of Washington, Research Triangle Institute).
Beginning in 1997, studies were conducted in Baltimore, Maryland;
Fresno, California; Seattle, Washington; Atlanta, Georgia; Boston,
Massachusetts; New York, New York; Research Triangle Park, North
Carolina; and Los Angeles, California. These studies included healthy
elderly individuals and elderly subjects with underlying cardiovascular
disease, COPD, hypertension, and a history of myocardial infarctions
among others. For each study, personal exposure measurements of
PM2.5 and/or PM10 were made. Measurements were also taken at
ambient, outdoor residential, and indoor residential locations.
Copollutants such as CO, ozone, N02, S02, metals, and carbon were

National Exposure Research Laboratory — October 2001

-------
also measured. For each participant, information on time/activity
patterns and potential sources of PM exposure was collected through an
OMB-approved questionnaire. Participants were monitored over time
(7-28 days) to investigate both longitudinal and cross-sectional
correlations between personal, indoor, outdoor, and ambient
measurements. Specific human health effects information, such as heart
rate variability, lung function, and blood pressure data were monitored
in some instances.

Results and	Field data collections for the panel studies have been completed. These

Implications	studies involved measurements taken with 14 discreet combinations of

subpopulation/season/location. Data from over 200 participants living
in eight major metropolitan areas (Boston, Los Angeles, Baltimore,
Research Triangle Park, Seattle, Fresno, New York, and Atlanta) were
involved during the 1998-2001 study period. More than 15,000 filter
samples from personal, residential and outdoor settings were collected
and analyzed for integrated (24-h) PM mass concentrations. This
represents over 4,000 sampling days of individual human exposure to
PM and an equivalent amount of collected time-activity pattern data.
Several studies showed that, for individuals with little exposure to non-
ambient sources, correlations between personal exposure and ambient
PM concentration are high. Even for these studies correlations varied
by individual depending upon their activities and the microenvironments
they occupied. Individual personal PM exposures and the relationship
to ambient concentrations may vary by season, residential and
geographical setting and subject groupings. Building type and
ventilation characteristics strongly influence both exposure levels and
the relationship with ambient concentrations. Numerous peer-reviewed
journal articles have been published based on the results from the
exposure studies with additional data summaries expected during
FY2002. The published journal articles provided integral information
for ORD's Ambient Air Quality Criteria for Particulate Matter (2001
PM AAQCD).

The PM Longitudinal Panel Studies were designed and conducted by
research teams at the US EPA's National Exposure Research
Laboratory, the U.S. EPA's National Health and Environmental Effects
Research Laboratory, The University of Washington, Harvard
University, and New York University, and Research Triangle Institute.

Extramural federal funding for this research was administered under
EPA cooperative assistance agreement CR8271177 (University of
Washington), CR827159 (Harvard University), CR827164 (New York

National Exposure Research Laboratory — October 2001

Research
Collaboration and
Publications

-------
University), CR820076 (University of North Carolina-Chapel Hill) as
well as EPA contracts 68-D5-0040, 68-D-99-012 (Research Triangle
Institute), 68-D2-0134 (QST Environmental), and 68-D2-0187 (SRA
Technologies).

Recent publications from this effort include:

Liao, D., Creason, J., Shy, C., Williams, R., Watts, R., and Zweidinger, R. "Daily

variation of particulate air pollution and poor cardiac autonomic control in
the elderly." Environmental Health Perspectives 107:521-525 (1999).

Williams, R., Watts., R., Stevens, R., Stone, C., and Lewtas, J. "Evaluation of a

personal air sampler for twenty-four hour collection of fine particles and
semivolatile organics." Journal of Exposure Analysis and Environmental
Epidemiology 2: 158-166 (1999).

Evans, G., Highsmith, R, Sheldon, L., Suggs, J., Williams, R., Zweidinger, R.,
Creason, J., Walsh, D., Rodes, C., and Lawless, P. "The 1999 Fresno
particulate matter exposure studies, comparison of community, outdoor,
and residential PM mass measurements." Journal of Air and Waste
Management Association 50: 1887-1896 (2000).

Williams, R., Creason, J., Zweidinger, R., Watts, R., Sheldon, L., and Shy, C.

"Indoor, outdoor, and personal exposure monitoring of particulate air
pollution: The Baltimore elderly epidemiology-exposure pilot study."
Atmospheric Environment 34: 4193-4204 (2000).

Reed, C.H., Rea, A., Zufall, M., Burke, J., Williams, R., Suggs, J., Sheldon, L.,

Walsh, D., and Kwok, R. (in press). "Use of a continuous nephelometer to
measure personal exposure to particles during the U.S. EPA Baltimore and
Fresno Panel Studies." Journal of Air and Waste Management
Association 50: 1125-1132 (2000).

Williams, R., Suggs, J., Zweidinger, R, Evans, G., Creason, J., Kwok, R., Rodes, C.,
Lawless, P., and Sheldon, L. "The 1998 Baltimore particulate matter
epidemiology-exposure study: part 1-Comparison of ambient, residential
outdoor, indoor and apartment particulate matter monitoring." Journal of
Exposure Analysis and Environmental Epidemiology 10:518-532
(2000).

Williams, R., Suggs, J., Creason, J., Rodes, C., Lawless, P., Kwok, R., Zweidinger,
R., and Sheldon, L. "The 1998 Baltimore particulate matter epidemiology-
exposure study: Part 2- Personal Exposure Assessment associated with an
elderly study population." Journal of Exposure Analysis and
Environmental Epidemiology 10:533-543 (2000).

Williams, R., Suggs, J., Zweidinger, R, Evans, G., Creason, J., Kwok, R., Rodes C.,
Lawless, P., and Sheldon, L. "Comparison of PM2 5 and PM10 monitors."
Journal of Exposure Analysis and Environmental Epidemiology
10:497-505 (2000).

Creason, J., Neas, L., Shy, C., Williams, R., Sheldon, L., Liao, D., and Walsh, D.
"Effects of particulate matter on the heart rate variability of elderly
residents in an east coast retirement community: the Baltimore 1998 PM
study." Journal of Exposure Analysis and Environmental Epidemiology
11:116-123 (2001).

Vette, A., Rea, A., Lawless, P., Rodes, C., Evans, G., Highsmith, R., and Sheldon, L.
"Characterization of indoor-outdoor aerosol concentration relationships
during the Fresno PM exposure studies." Aerosol Science and

National Exposure Research Laboratory — October 2001

-------
Technology 34:118-126 (2001).

Rodes, C., Lawless, P., Evans, G., Sheldon, L., Williams, R., Vette, A., Creason, J.,
and Walsh, D. "The relationships between personal PM exposures for
elderly populations and indoor and outdoor concentrations for three
retirement center scenarios." Journal of Exposure Analysis and
Environmental Epidemiology 11:103-116 (2001).

Conner, T., Norris, G., Landis, M., and Williams, R. "Individual particle analysis of
indoor, outdoor, and personal samples from the 1998 Baltimore retirement
home study." Atmospheric Environment, in press (2001).

Rea, A., Zufall, M., Williams, R., Reed, C., and Sheldon, L. "The influence of human
activity patterns on personal PM exposure: a comparative analysis of filter-
based and continuous particle measurements." Journal of Air and Waste
Management Association, in press (2001).

Future Research	Data from the completed field studies will be validated and individual

data bases developed. Statistical analysis will be conducted to

quantify personal exposures and indoor air concentrations for
PM components for potentially sensitive individuals,
describe the relationships between personal exposure, and
indoor, outdoor and ambient air concentrations for PM
components for different sensitive cohorts,
examine the inter- and intrapersonal variability in these
relationships

identify and model the factors that contribute to the inter- and
intrapersonal variability in these relationships, and
determine the contribution of ambient concentrations to indoor
air/personal exposures for PM/gases.

Individual databases will be combined to examine the effects of air shed
(location, season), population demographics, and residential setting
(apartment versus stand-alone homes) on the relationship between
personal exposure and indoor, outdoor, and ambient air concentrations
for PM/gases. Results will be presented in the peer-reviewed
literature. The combined database will be made publically available,
thus allowing the Agency and other interested parties to access and use
the data. Ultimately, these studies will provide accurate exposure data
and models that will provide the sound scientific basis needed for
implementing the National Ambient Air Quality Standard for PM.

National Exposure Research Laboratory — October 2001

-------
Contacts for

Additional

Information

Questions and inquiries concerning the Longitudinal Panel Studies can
be directed to:

Linda Sheldon

US EPA, Office of Research and Development
National Exposure Research Laboratory
Research Triangle Park, NC 27709

Phone: 919/541-2205
E-mail: sheldon.linda@epa.gov

Lance Wallace

US EPA, Office of Research and Development
National Exposure Research Laboratory
Reston, VA 20192

Phone: 703/648-4287
E-mail: wallace.lance@epa.gov

Ron W. Williams

US EPA, Office of Research and Development
National Exposure Research Laboratory
Research Triangle Park, NC 27709

Phone: 919/541-2205

E-mail: williams.ronald@epa.gov

National Exposure Research Laboratory — October 2001

-------