NERL Research Abstract

EPA's National Exposure Research Laboratory
GPRA Goal 8 - Sound Science
APM # 665

Significant Research Findings

National Human Exposure Assessment Survey

Scientific
Problem and
Policy Issues

During daily activities, people come into contact with chemicals through a
variety of pathways, such as water, food, air, soil, and dust. Different types and
quantities of chemicals may be present in the various locations where people
spend time each day. In order to understand the risks of exposures to
chemicals, and to identify and reduce possible sources of these exposures, the
contributions from each of these locations and pathways need to be understood.
The need to understand all of the pathways and routes by which people are
exposed has been reinforced by recent legislation (for example, the Food
Quality Protection Act [FQPA] of 1996) requiring EPA to consider the
"aggregate" human exposure to pesticides and other toxic chemicals.

Aggregate exposure refers to the total exposure of humans to chemicals through
all relevant pathways and routes. Actual data on what people are exposed to is
critically needed to reduce the uncertainties inherent in estimating exposures
from all relevant pathways and routes.

Research The National Human Exposure Assessment Survey (NHEXAS) studies
Approach measured distributions of human exposures to a variety of high-risk target
chemicals, including metals, volatile organic compounds (VOCs), and
pesticides. In these studies, approximately 500 volunteer participants were
randomly selected from three areas of the U.S.: Arizona, the Baltimore, MD
area, and EPA Region 5 states (IL, IN, MI, MN, OH, and WI). These studies
measured both direct exposures to environmental pollutants and biological
indicators of exposure (biomarkers) in their blood or urine. The data from these
studies are being analyzed to characterize differences in exposure between
demographic groups, to compare exposure measurements and the biomarkers,
and to evaluate changes in exposures over time.

Results and Results from the Arizona study indicate that metals and particulate matter
Implications levels were generally higher in lower-income households and those with

Hispanic ethnicity. The Arizona study results also suggest that environmental
measurements are better predictors of exposure than are questionnaires or

National Exposure Research Laboratory - September 2000

-------
activity information alone. The Baltimore, MD, study found evidence of
substantial changes in dietary and drinking water exposures to metals and
pesticides over a one-year period. Changes were also found in drinking water
and beverage consumption patterns. These results have implications regarding
the use of one-time measurements to estimate or classify long-term (chronic)
exposures. Their study results also show that dietary exposures occur to more
than one Organophosphate (OP) pesticide, which may be important in assessing
cumulative risks for these pesticides. In the Region 5 study, relationships
among pathways, media, and routes of exposures for metals were strongest for
the air measurements. Personal air concentrations were more closely related to
indoor- than to outdoor-air measurements. The biomarkers were most closely
related to solid food for arsenic, and to surface dust for lead. Concentration
measurements were more strongly associated with exposures than were
questionnaire items. The implications of these results for future studies include
the need to collect a range of measurements for each participant, the need to
include non-residential environments in the study, and the need to correlate the
timing and duration of environmental measurements relative to the period
covered by the exposure and biomarker measurements.

This research project directly supports EPA Office of Research and
Development's research to improve the scientific foundation of human health
risk assessment under GPRA Goal 8 (Sound Science, Improved Understanding
of Environmental Risk and Greater Innovation to Address Environmental
Problems), Objective 2 (Research for Human Health Risk Assessment), Sub-
Objective 1 (Human Health Research). The results of this project address
GPRA Annual Performance Goal (APG) 03 (By 2000, develop initial
measurements, methods and models to evaluate exposures and effects of
environmental contaminants, particularly in children), Annual Performance
Measure (APM) 665 (Report from NHEXAS studies identifying relationships
between questionnaire, activity pattern, and contaminant concentrations to
personal exposures of chemicals). Although this work directly supports a Goal
8 APM, the results also will be valuable to reduce uncertainties in exposure
assessment under GPRA Goal 3 (Safe Food, Research to Support New
Regulatory Requirements Under FQPA).

Research

Collaboration

and

Publications

The NHEXAS analysis projects were conducted under Contracts from EPA's
National Exposure Research Laboratory and Emory University, Research
Triangle Institute, and the University of Arizona.

This research has been presented in several conference presentations, and in the
following manuscripts and articles.

Clayton, C.A., Pellizzari, E.D., Quackenboss, J.J. National Human Exposure Assessment

Survey (NHEXAS): Analysis of exposure pathways and routes for arsenic and lead in

National Exposure Research Laboratory - September 2000

-------
EPA Region 5. Journal of Exposure Analysis and Environmental Epidemiology.
Submitted.

Lebowitz, M.D., O'Rourke, M.K., Rogan, S., Reses, J., VandeWater, P., Blackwell, A.,
Moschandreas, D.J., Gordon, S., Robertson, G. Indoor and outdoor PM10 and
associated metals and pesticides in Arizona. Inhalation Toxicology 12(Suppl 1): 139-
144, 2000.

Macintosh, D.L., Hammerstrom, K.L., Ryan, P.B. Longitudinal exposure to selected pesticides
in drinking water. Human and Ecological Risk Assessment 5: 575-588, 1999.

Macintosh, D.L., Kabiru, C., Scanlon, K.A., Ryan, P.B. Longitudinal investigation of exposure
to arsenic, cadmium, chromium, and lead via beverage consumption. Journal of
Exposure Analysis and Environmental Epidemiology 10: 196-205, 2000.

Moschandreas, D.J., Kim, Y., Karuchit, S., Ari, H., Lebowitz, M.D., O'Rourke, M.K., Gordon,
S., Robertson, G. Occurrence and distribution of residential exposure to chlorpyrifos
and diazinon. Atmospheric Environment. Submitted.

Moschandreas, D.J., Karuchit, S., Kim, Y., Ari, H., Lebowitz, M.D., O'Rourke, M.K., Gordon,
S., Robertson, G. On predicting multi-route and multi-media residential exposure to
chlorpyrifos and diazinon. Atmospheric Environment. Submitted.

Moschandreas, D.J., Ari, H., Karuchit, S., Kim, Y., Lebowitz, M.D., O'Rourke, M.K., Gordon,
S., Robertson, G. Exposure to pesticides by medium and route: the 90th percentile and
related uncertainties. Atmospheric Environment. Submitted.

Rogan, S.P., O'Rourke, M.K., Robertson, G. Variability in sample metals concentrations

among population subgroups in the national human exposure assessment survey in
Arizona. Environmental Health Perspectives. Submitted.

Ryan, P.B., Huet, N., Macintosh, D.L. Longitudinal investigation of exposure to arsenic,

cadmium, and lead in drinking water. Environmental Health Perspectives. In press.

Future analyses of the NHEXAS data will be based on the NHEXAS Data
Analysis Strategy, which is currently undergoing revision related to the
recommendations provided by the EPA's Science Advisory Board. These are
expected to include more detailed and complex types of analyses.

Inquiries about NERL's research to analyze the NHEXAS studies can be
directed to:

James J. Quackenboss

U.S. Environmental Protection Agency

National Exposure Research Laboratory

P.O. Box 93478

Las Vegas, NV 89193-3478

Phone: (702)798-2442

E-mail: quackenboss.j ames@epa.gov

Future
Research

National Exposure Research Laboratory - September 2000

-------