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Biomarkers for agrochemicals and toxic substances : applications and risk assessment PDF

282 Pages·1996·27.67 MB·English
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Biomarkers for Agrochemicals and Toxic Substances In Biomarkers for Agrochemicals and Toxic Substances; Blancato, J., et al.; ACS Symposium Series; American Chemical Society: Washington, DC, 1996. In Biomarkers for Agrochemicals and Toxic Substances; Blancato, J., et al.; ACS Symposium Series; American Chemical Society: Washington, DC, 1996. ACS SYMPOSIUM SERIES 643 Biomarkers for Agrochemicals and Toxic Substances Applications and Risk Assessment Jerry N. Blancato, EDITOR U.S. Environmental Protection Agency Robert N. Brown, EDITOR U.S. Environmental Protection Agency Curtis C. Dary, EDITOR U.S. Environmental Protection Agency Mahmoud Abbas Saleh, EDITOR Texas Southern University Developed from a symposium sponsored by the Division of Agrochemicals American Chemical Society, Washington, DC In Biomarkers for Agrochemicals and Toxic Substances; Blancato, J., et al.; ACS Symposium Series; American Chemical Society: Washington, DC, 1996. Library of Congress Cataloging in Publication Data Biomarkers for agrochemicals and toxic substance: applications and risk assessment / Jerry N. Blancato... [et al.], editor. p. cm.—(ACS symposium series, ISSN 0097-6156; 643) "Developed from a symposium sponsored by the Division of Agrochemicals at the 209th National Meeting of the American Chemical Society, Anaheim, California, April 2-7, 1995." Includes bibliographical references and indexes. ISBN 0-8412-3449-3 1. Agricultural chemicals—Health aspects—Congresses. 2. Biochemical markers—Congresses. 3. Endocrine toxicology- Congresses. 4. Agricultural chemicals—Environmental aspects- Congresses. I. Blancato, Jerry Ν. II. American Chemical Society. Division of Agrochemicals. III. American Chemical Society. Meeting (209th: 1995: Anaheim, Calif.). IV. Series. [DNLM: 1. Agrochemicals—congresses. 2. Hazardous Substances—congressses. 3. Biological Markers—congresses. 4. Environmental Exposure—prevention & control—United States- congresses. WA 465 B620 1996] RA1270.A4B55 1996 615.9—dc20 DNLM/DLC for Library of Congress 96-28772 CIP This book is printed on acid-free, recycled paper. Copyright © 1996 American Chemical Society All Rights Reserved. The appearance of the code at the bottom of the first page of each chapter in this volume indicates the copyright owner's consent that reprographic copies of the chapter may be made for personal or internal use or for the personal or internal use of specific clients. This consent is given on the condition, however, that the copier pay the stated per-copy fee through the Copyright Clearance Center, Inc., 222 Rosewood Drive, Danvers, MA 01923, for copying beyond that permitted by Sections 107 or 108 of the U.S. Copyright Law. This consent does not extend to copying or transmission by any means—graphic or electronic—for any other purpose, such as for general distribution, for advertising or promotional purposes, for creating a new collective work, for resale, or for information storage and retrieval systems. The copying fee for each chapter is indicated in the code at the bottom of the first page of the chapter. The citation of trade names and/or names of manufacturers in this publication is not to be construed as an endorsement or as approval by ACS of the commercial products or services referenced herein; nor should the mere reference herein to any drawing, specification, chemical process, or other data be regarded as a license or as a conveyance of any right or permission to the holder, reader, or any other person or corporation, to manufacture, reproduce, use, or sell any patented invention or copyrighted work that may in any way be related thereto. Registered names, trademarks, etc, used in this publication, even without specific indication thereof, are not to be considered unprotected by law. PRINTED IN THE UNITED STATES OF AMERICA In Biomarkers for Agrochemicals and Toxic Substances; Blancato, J., et al.; ACS Symposium Series; American Chemical Society: Washington, DC, 1996. Advisory Board ACS Symposium Series Robert J. Alaimo Cynthia A. Maryanoff Procter & Gamble Pharmaceuticals R. W. Johnson Pharmaceutical Research Institute Mark Arnold University of Iowa Roger A. Minear University of Illinois David Baker at Urbana-Champaign University of Tennessee Omkaram Nalamasu Arindam Bose AT&T Bell Laboratories Pfizer Central Research Vincent Pecoraro Robert F. Brady, Jr. University of Michigan Naval Research Laboratory George W. Roberts Mary E. Castellion North Carolina State University ChemEdit Company John R. Shapley Margaret A. Cavanaugh University of Illinois National Science Foundation at Urbana-Champaign Arthur B. Ellis Douglas A. Smith University of Wisconsin at Madison Concurrent Technologies Corporation Gunda I. Georg L. Somasundaram University of Kansas DuPont Madeleine M. Joullie Michael D. Taylor University of Pennsylvania Parke-Davis Pharmaceutical Research Lawrence P. Klemann William C. Walker Nabisco Foods Group DuPont Douglas R. Lloyd Peter Willett The University of Texas at Austin University of Sheffield (England) In Biomarkers for Agrochemicals and Toxic Substances; Blancato, J., et al.; ACS Symposium Series; American Chemical Society: Washington, DC, 1996. Foreword THE ACS SYMPOSIUM SERIES was first published in 1974 to provide a mechanism for publishing symposia quickly in book form. The purpose of this series is to publish comprehensive books developed from symposia, which are usually "snapshots in time" of the current research being done on a topic, plus some review material on the topic. For this reason, it is neces sary that the papers be published as quickly as possible. Before a symposium-based book is put under contract, the proposed table of contents is reviewed for appropriateness to the topic and for comprehensiveness of the collection. Some papers are excluded at this point, and others are added to round out the scope of the volume. In addition, a draft of each paper is peer-reviewed prior to final acceptance or rejection. This anonymous review process is supervised by the organiz ers) of the symposium, who become the editor(s) of the book. The authors then revise their papers according to the recom mendations of both the reviewers and the editors, prepare camera-ready copy, and submit the final papers to the editors, who check that all necessary revisions have been made. As a rule, only original research papers and original re view papers are included in the volumes. Verbatim reproduc tions of previously published papers are not accepted. ACS BOOKS DEPARTMENT In Biomarkers for Agrochemicals and Toxic Substances; Blancato, J., et al.; ACS Symposium Series; American Chemical Society: Washington, DC, 1996. Preface THE RISK ASSESSMENT PROCESS has received increased attention over the past few years. The National Research Council, the U.S. Congress, and numerous international bodies have all discussed its importance. There are considerable uncertainties with the probabilistic estimates of risk. Risk assessments consist of many components involving several scientific disciplines. Exposure assessment is often the weak link in risk assessments. While a treatise on exposure assessment is outside the scope of this volume, measurements of concentrations in environmental media and in biological fluids and tissues are important cornerstones. These measurements are often expensive and time-consuming. We need accurate, quick, and cost-effective measurement techniques. In addition, we need interpretive methods to assess exposure and risk to xenobiotics. Public concerns about agrochemicals and toxic substances are great. The media frequently report on these areas, alerting people to newly per ceived dangers, both real and imagined. The public finds pesticides in food products and in drinking water especially disconcerting. For exam ple, we have grown more aware of the role of agrochemicals as possible endocrine disruptors. Biomarkers and biomonitoring, the subjects of this volume, offer exciting opportunities to understand more completely environmental, chemical, and physiologic processes by providing useful measures of chemicals and their breakdown products. Many chapters in this volume show and discuss such new methods and their field applications. How ever, to take full advantage of any new measurement or monitoring stra tegies, we should understand all the mechanistic processes. Full under standing is not always possible; progress is made in stages. This volume was developed from the work presented at the 209th National Meeting of the American Chemical Society, titled "Biomarkers for Agrochemicals and Toxic Substances," sponsored by the Division of Agrochemicals, in Anaheim, California, April 2-7, 1995. It focuses not only on measurement techniques and applications but also on new and innovative thinking regarding the interpretation of measurement results. Several chapters deal with the application of results to the exposure and risk assessment process. Other chapters discuss new physiologic end points as markers of exposure and effect. This integrated picture is more fully discussed in the first chapter. xi In Biomarkers for Agrochemicals and Toxic Substances; Blancato, J., et al.; ACS Symposium Series; American Chemical Society: Washington, DC, 1996. We wish to acknowledge the efforts of all contributing authors in pro viding informative and insightful chapters. We also acknowledge the assistance and patience of our acquisitions editor, Michelle Althuis. JERRY N. BLANCATO ROBERT N. BROWN CURTIS C. DARY Characterization Research Division National Exposure Research Laboratory U.S. Environmental Protection Agency 944 East Harmon Avenue Las Vegas, NV 89193-3478 MAHMOUD ABBAS SALEH Environmental Chemistry and Toxicology Laboratory Department of Chemistry 3100 Cleburne Avenue Texas Southern University Houston, TX 77004 May 30, 1996 xii In Biomarkers for Agrochemicals and Toxic Substances; Blancato, J., et al.; ACS Symposium Series; American Chemical Society: Washington, DC, 1996. Chapter 1 Relationship of Biomarkers of Exposure to Risk Assessment and Risk Management Curtis C. Dary, James J. Quackenboss, Charles H. Nauman, and Stephen C. Hern Characterization Research Division, National Exposure Research Laboratory, U.S. Environmental Protection Agency, 944 East Harmon, Las Vegas, NV 89193-3478 An "environmental health paradigm" has been proposed for setting priorities in risk assessment for pesticides. This paradigm serves as a useful template for depicting the chain of events that relate sources of exposure with adverse environmental and human health outcomes. The paradigm is based on multiroute and multipathway exposure from contact with contaminants in multimedia as modulated by the magnitude, frequency, and duration of exposure. As part of this risk assessment paradigm, biomarkers integrate routes, media, and pathways of exposure so that scientifically defensible risk characterizations can be realized. Biomarkers of exposure are indicators of current or historical contact with an environmental agent. Moreover, biomarkers serve to evaluate the completeness of exposure assessment information by associating environmental or source information, exposure measurements, and epidemiological and human activity data with internal dose. Biomarkers may take the form of the unchanged agent itself or its metabolites, an adduct or biochemical indicator depending on the source and route of exposure, and the metabolism, storage, and excretion and physicochemical properties of the agent. This paper will review the use of biomarkers of exposure and explore the relationship biomarkers assume within the risk assessment or "environmental health" paradigm. Risk is a function of exposure and hazard and risk assessment is the process used to evaluate the probability of exposure and the magnitude and character of the hazard posed to human health and ecosystems by environmental stressors such as pollution and alterations in the quality of habitats (1,2). The risk assessment process consists of hazard identification, dose-response assessment, exposure assessment and risk characterization. Hazard identification involves the experimental study of toxicity in test organisms and the examination and evaluation of reports of exposure incidents and epidemiological research. The potency of a stressor is determined experimentally through a dose-response assessment. An exposure assessment This chapter not subject to U.S. copyright Published 1996 American Chemical Society In Biomarkers for Agrochemicals and Toxic Substances; Blancato, J., et al.; ACS Symposium Series; American Chemical Society: Washington, DC, 1996. 1. DARY ETAL Biomarkers and Risk Assessment 3 determines the nature and size of the population or ecosystem at risk together with the frequency, duration and magnitude of the exposure to the stressor. The data collected through the first three elements, hazard identification, dose-response assessment and exposure assessment, are used in risk characterization to qualitatively or quantitatively estimate or predict the likelihood of an adverse health outcome. Components of the Paradigm Exposure assessment has been generally considered to be the weak link in hazard evaluation and the assessment of risk to toxic substances including pesticides (3). As depicted by Pirkle et al. (4) and recast to explore the pesticide exposure situation (Exhibit 1), exposure assessment represents the preponderance of elements along the spine of the environmental health paradigm that guides research in risk assessment and risk management decisions (5). The environmental health paradigm for the pesticide situation looks to a clear relationship between media concentrations, the rate of exposure and adverse environmental health outcomes. Monitoring exposure through the use of biomarkers provides a measure of the amount of the agent transferred into an organism independent of the source or medium. Sources. For the pesticide situation, the source of the exposure is generally controlled through regulation as specified under the Federal Insecticide Fungicide and Rodenticide Act (FIFRA. 7 U.S.C. 136 a-c, 136v.). The active ingredients and formulations of pesticide products have been rationally designed and packaged for the actuation of product at prescribed rates to control target pests in accordance with the lawful labeling instructions. The product label contains approved conditions for use, special restrictions, hazard warnings and general information about the product (6). Conformance with the labeling instructions would be expected to reduce exposure to the user and other non target organisms while delivering the product to the intended target. Exposure would be expected to occur to the user through the occupational activities required during handling while exposure to nontarget organisms might occur through the incidental contact with residues. Thus the source of exposure along the environmental health paradigm for pesticides (Exhibit 1) is set along parallel tracts for occupational and incidental exposure. Environmental Concentrations. Occupational exposure is clearly a human condition where the user is expected to come into contact with relatively high environmental concentrations of the product in different exposure media during mixing, loading, application, and harvesting (7,8). As depicted in Exhibit 1, the sources of occupational exposure would be expected to be the formulation concentrate, the end use product, the application rate and the commodity or target. The formulation concentrate might refer to emulsifiable concentrates, wettable powders and certain dry flowables and microencapulated formulations that are mixed with water to produce the end use product (9). The end use product may also be "ready to use" as an aerosol to be actuated at specified application rates. The In Biomarkers for Agrochemicals and Toxic Substances; Blancato, J., et al.; ACS Symposium Series; American Chemical Society: Washington, DC, 1996.

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Relationship of biomarkers of exposure to risk assessment and risk management / Curtis C. Dary, James J. Quackenboss, Charles H. Nauman, and Stephen C. Hern -- Proposed use of human exposure biomarkers in environmental legislation : Toxic Substances Control Act / Larry L. Needham -- The use of refer
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