United States Environmental Protection Agency	Office of Research and Development

National Exposure Research Laboratory
Research Abstract

Government Performance Results Act Goal: Safe Food

Significant Research Findings:

Human Exposure Measurements: Children's Focus & Support of

the Food Quality Protection Act

Scientific Problem The Food Quality Protection Act (FQPA) of 1996 requires U.S.

and Policy Issues	Environmental Protection Agency (EPA) to use exposure assessments in

the pesticide tolerance setting process. These assessments must
consider aggregate exposures of infants and children to pesticides from
all sources and all routes. These exposures result from dietary ingestion
of pesticide residues in food and drinking water, inhalation of air
containing pesticides, dermal (skin) contact with surfaces containing
pesticides (indoors and residential lawns), and non-dietary ingestion of
pesticide residues from hand- or object-to-mouth activities. Children's
exposure to pesticides may be impacted by many factors, including their
activities and the microenvironments that they occupy, particularly for
the dermal, non-dietary ingestion, and dietary routes of exposure. FQPA
requires that future assessments use high quality and high quantity
exposure data or models that are based on exposure factors generated
from existing, reliable exposure data. Currently, there are very little
exposure data that can be used for these purposes. The goal of this
research is to develop the protocols and data that are required for
assessing children's aggregate exposures to pesticides. In support of
FQPA, the initial focus is on potential health threats to children from
residential uses of pesticides. However, results from this project
provide basic insights into data requirements for assessing children's
aggregate and cumulative exposure to all environmental pollutants.

Research Approach This project is designed to identify the pesticides, exposure pathways,

and activities that represent the highest potential exposures to children
and the factors that influence these exposures. Research is being
performed to develop methods and protocols for conducting exposure
measurements for children, to collect data on exposure factors to reduce
the uncertainty in the Agency's exposure assessments, and to collect data
for use in children's exposure model development and evaluation. To
address the objectives of this program, a set of studies was designed to
collect information and data in four areas: pesticide use patterns,
temporal and spatial distribution of pesticide residues in non-

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occupational environments (residences and child care centers), dermal
and non-dietary exposure assessment methods and exposure factors, and
dietary exposure assessment methods and exposure factors. Studies
conducted in this program include:

1.	Tests of the Feasibility of Using the Macroactivity Approach to
Assess Dermal Exposure,

2.	Study to Identify Important Parameters for Characterizing
Pesticide Residue Transfer Efficiencies,

3.	Use of Fluorescent Tracer Technology to Investigate Dermal
Exposure,

4.	Study of Pets as Transfer Vehicles of Pesticide Residues
Following Lawn Applications,

5.	Temporal and Spatial Distributions of Pesticides Following a
Crack and Crevice Application in the EPA Test House,

6.	Children's Pesticide Exposure Measurements Following Crack
and Crevice Applications,

7.	Coding the Videotaped Activities of Preschool Children,

8.	Collaboration with the CDC and Duval County on Potential
Pesticide Exposure of Young Children Living in an Urban
Area,

9.	Collaboration with HUD to Measure Pesticides in Child Care
Centers,

10.	Evaluation of Methods to Measure Exposure of Infants and
Very Young Children of Farm Workers,

11.	Measuring Dietary Intake of Young Children,

12.	Characterization of Pesticide Transfer to Foods From
Household Surfaces, and

13.	Analytical Methods Development for Contaminants in
Composite Food Samples.

Each of these studies was designed to collect data to address one or
more of the four focus areas of research and the objectives of the
program.

Results and
Implications

A screening level assessment showed that dermal, non-dietary ingestion,
and the dietary ingestion pathways provide some of the potentially
highest exposures for young children. Data to quantify exposures from
these routes are very sparse, making exposure assessments for these
routes the most uncertain. As a result, research studies were developed
in this project to collect requisite dermal, dietary, and non-dietary
exposure data. A number of key findings have resulted from these
studies.

Tests with the fluorescence tracer technology demonstrated that
both the type of surface and the skin condition (e.g. dry versus
moist) significantly impact the transfer of pesticide residues to

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the skin. Transfer from smooth surfaces was higher than from
rough surfaces. Tests to measure transfer of tracers mimicking
pesticide residues from toys by simulated mouthing
demonstrated the potential importance of this route.
Measurements of transfer coefficients using cotton dosimeters
worn by children in their homes showed that the transfer of
pesticide residues following crack and crevice application
varied with activity level, duration, and location on the body.
The initial data analysis suggests that the macroactivity
approach may be appropriate to estimate children's dermal
exposure based on activity levels in well-defined
microenvironments. The microactivity approach will likely be
required to estimate exposure by non-dietary ingestion.

Results of the feasibility study of the potential for human
exposure to pet-transferred diazinon residues following lawn
applications showed that transferable residues were
measurable in samples of the dog's fur (clippings), fur wipes,
and paw wipes up to 15 days after application of the pesticide
on the lawn. Transferable residues on the fur after the lawn
application were 14 times higher than the background
concentrations on the fur prior to the application.

Analysis of data from a study of ingestion of pesticides in
homes following crack and crevice applications suggests that a
substantial portion of the total dietary intake of pesticides by
young children may occur due to contamination of foods during
handling and eating in homes with elevated levels of
pesticides.

The pilot studies conducted in this research project have included a
substantial effort to evaluate measurement protocols and methods for
measuring children's exposure by the dermal, dietary, and non-dietary
ingestion pathways. Results of these studies are being used to develop a
draft protocol for measuring children's non-occupational exposure to
pesticides by all relevant pathways. The draft protocol will be
evaluated in future field verification exposure measurement studies.
Many of the studies are currently on-going or soon to be completed.

Data are being analyzed and will be reported in the coming year.

This research project will provide data and information to meet EPA's
Government Performance and Results Act (GRPA) Goal # 3 (Safe
Food) and Goal # 8 (Sound Science, Improved Understanding of
Environmental Risks, and Greater Innovation to Address Environmental
Problems). The outputs from this project will contribute to these goals
by providing critical data needed to develop methods and protocols for

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assessing aggregate exposure, to develop and evaluate exposure models,
and to reduce uncertainties in exposure assessments for children.

Publications

Research	The children's exposure measurements and research in support of FQPA

Collaboration and are being conducted by scientists from EPA's National Exposure

Research Laboratory with support of researchers from the Research
Triangle Institute and the Battelle Memorial Institute under contract to
the EPA. Additionally, work is being performed in collaboration with
the Centers for Disease Control and Prevention (CDC), the Department
of Housing and Urban Development (HUD), and the Duval County
Florida Health Department. The research project has resulted in peer-
reviewed manuscripts and over 30 presentations at symposia and
conferences, including the conferences of the International Society of
Exposure Analysis and the Society for Risk Analysis. Examples of
recent peer-reviewed publications from this research program include:

Akland, G.G, Pellizzari, E.D., Hu, Y., Roberds, M., Rohrer, C.A., Leckie, J.O., and
Berry, M.R. Factors influencing total dietary exposures of young children.
Journal of Exposure Analysis and Environmental Epidemiology, 10(6,
Part 2): 710-722,(2000).

Cohen Hubal, E.A., Sheldon, L.S., Burke, J.M., McCurdy, T.R., Berry, M.R., Rigas,
M.L., Zartarian, V.G., and Freeman, N.C.G. Children's exposure
assessment: A review of factors influencing children's exposure, and the
data available to characterize and assess that exposure. Environmental
Health Perspectives. 108(6): 475-486, (2000).

Cohen Hubal, E.A., Sheldon, L.S., Zufall, M.J., Burke, J.M., Thomas, K.W. The
challenge of assessing children's residential exposure to pesticides.
Journal of Exposure Analysis and Environmental Epidemiology, 10(6),
Part 2: 638-649, (2000).

Hu, Y.A., Barr, D.B., Akland, G.G., Melnyk, L.J., Needham, L., Pellizzari, E.D.,
Raymer, J.H., and Roberds, J.M. Collecting urine samples from young
children using cotton gauze for pesticide studies. Journal of Exposure
Analysis and Environmental Epidemiology, 10(6, Part 2): 703 - 709,
(2000).

Morgan, M., Stout, D.M. II, and Wilson, N. A feasibility study of the potential for
human exposure to pet-borne diazinon residues following lawn
applications. Bulletin of Environmental Contamination and Toxicology
66(3):295-300, (2001).

Rosenblum, L., Hieber, T., Morgan, J.N. Determination of pesticides in composite
dietary samples by gas chromatography/mass spectrometry in the selected
ion monitoring mode by using a temperature-programmable large volume
injector with preseparation column. Journal of AO AC International,
84(3): 891 -900,(2001).

U.S. EPA (1999) Dermal and Non-Dietary Ingestion Exposure Workshop.

Research Triangle Park, NC, Office of Research and Development.
EPA/600/R-99/039.

U.S. EPA (2001) Manual of Analytical Methods for Determination of Selected

Environmental Contaminants in Composite Food Samples. EPA report (in
preparation).

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Future Research	The research described here is part of a larger program to support

FQPA by collecting data on exposure factors to reduce the uncertainty in
exposure assessments for children and by providing data for
development of multi-media, multi-pathway exposure models. Draft
protocols developed in this project will be evaluated and refined in
field verification studies to be performed in Fiscal Years 2003 and
2004. The field verification studies will be designed to develop
reliable protocols for estimating exposure for all relevant pathways and
children's age groups, demonstrate the validity of the protocols in
exposure measurement field studies, develop accurate exposure factors
and define the uncertainty associated with these factors, and develop a
core data set of high quality exposure concentration measurements.

Questions and inquiries can be directed to:

Linda Sheldon

US EPA, Office of Research and Development
National Exposure Research Laboratory
Research Triangle Park, NC 27711

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

Roy Fortmann

US EPA, Office of Research and Development
National Exposure Research Laboratory
Research Triangle Park, NC 27711

Phone: 919/541-1021
E-mail: fortmann.rov@epa.gov

Elaine Cohen Hubal

US EPA, Office of Research and Development
National Exposure Research Laboratory
Research Triangle Park, NC 27711

Phone: 919/541-4077
E-mail: hubal.elaine@epa.gov

Lisa Melnyk

US EPA, Office of Research and Development
National Exposure Research Laboratory
Cincinnati, OH 45268

Phone: 513/569-7494
E-mail: melnyk.lisa@epa.gov

Contacts for

Additional

Information

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