Pathways and Measuring Exposure to Toxic Substances

M. Lippmann
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引用次数: 1

Abstract

For toxic substances in the environment to exert adverse effects on humans, they must deposit on and/or penetrate through a body surface and reach target sites where they can alter normal functions and/or structures. The critical pathways and target sites can vary greatly from substance to substance and, for a given substance, can vary with its chemical and physical form. A further complication arises from the fact that chemical and/or metabolic transformations can take place between deposition on a body surface and the eventual arrival of a toxic substance or metabolite of that substance at a critical target site. A critical target site is where the toxic effect of first or greatest concern takes place. This chapter reviews and summarizes current knowledge concerning the generic aspects of the environmental pathways and processes leading to: (1) deposition of toxicants on body surfaces (skin, respiratory tract, and gastrointestinal tract); (2) uptake of toxicants by epithelial cells from environmental media (air, water, waste, and food); (3) translocation and clearance pathways within the body for toxicants that penetrate a surface epithelium; and (4) the influence of chemical and physical form of the toxicant on the metabolism and pathways of the chemical of concern. Where the physical attributes of the toxicant such as the length and biopersistence of airborne fibers are of generic concern, these are also discussed in this chapter. Other aspects of the pathways and the fates of toxicants that are specific to the chemical species that are the subject of the following chapters of this volume are discussed, as appropriate, in those chapters. This chapter also summarizes and discusses techniques for measuring personal and population exposures to environmental toxicants and their temporal and spatial distributions. Quantitative exposure assessment, as a component of risk assessment, involves consideration of: (1) the nature and properties of chemicals in environmental media; (2) the presence in environmental media of the specific chemicals that are expected to exert toxic effects; (3) the temporal and spatial distributions of the exposures of interest; and (4) the ways that ambient or workplace exposure measurements or models can be used to draw exposure inferences. In this context, the knowledge of deposition, fate, pathways, and rates of metabolism and transport within the body, to be reviewed later in this chapter, provide appropriate rationales for size-selective aerosol sampling approaches and/or usage of biomarkers of exposure. Finally, this chapter discusses the choices of sampling times, intervals, rates, durations, and schedules that are most appropriate for exposure measurements and/or modeling and are most relevant to risk assessment strategies that reflect data needs for: (1) documenting compliance with exposure standards; (2) performing epidemiological studies of exposure–response relationships; (3) developing improved exposure models; and (4) facilitating secondary uses of exposure data for epidemiological research, studies of the efficacy of exposure controls, and analyses of trends. Keywords: aerosols; air; air contaminants; airways; biomonitoring; databases; dosimetry; food; human exposure pathways; liquids; mass transfer; measurement modeling; particles; physical properties; retention; skin; solids; translocation; water
接触有毒物质的途径和测量
环境中的有毒物质要对人体产生不良影响,它们必须沉积和/或穿透体表并到达可以改变正常功能和/或结构的目标部位。不同物质之间的关键途径和靶位可能有很大差异,对于特定物质,其化学和物理形式也可能不同。更复杂的是,在身体表面的沉积和有毒物质或该物质的代谢物最终到达关键目标部位之间可能发生化学和/或代谢转化。关键靶位是毒性作用最先或最严重的地方。本章回顾和总结了目前关于环境途径和过程的一般方面的知识,这些途径和过程导致:(1)有毒物质在身体表面(皮肤、呼吸道和胃肠道)的沉积;(2)上皮细胞从环境介质(空气、水、废物和食物)中摄取有毒物质;(3)穿透表面上皮的毒物在体内的易位和清除途径;(4)有毒物质的化学和物理形态对所关注的化学物质的代谢和途径的影响。如果有毒物质的物理属性,如空气中纤维的长度和生物持久性是一般关注的,这些也将在本章中讨论。其他方面的途径和有毒物质的命运是特定的化学物种,这是本卷的以下章节的主题,讨论适当的,在这些章节。本章还总结和讨论了测量个人和人群暴露于环境毒物及其时空分布的技术。定量暴露评估作为风险评估的一个组成部分,涉及考虑:(1)环境介质中化学品的性质和特性;(二)环境介质中存在预期会产生毒性作用的特定化学品的;(3)感兴趣暴露的时空分布;(4)环境或工作场所暴露测量或模型可用于得出暴露推断的方法。在此背景下,本章后面将对沉积、命运、途径以及体内代谢和运输速率的知识进行回顾,为粒径选择性气溶胶取样方法和/或暴露生物标志物的使用提供了适当的依据。最后,本章讨论了采样时间、间隔、速率、持续时间和时间表的选择,这些选择最适合暴露测量和/或建模,并与反映数据需求的风险评估策略最相关:(1)记录暴露标准的遵守情况;(2)开展暴露-反应关系的流行病学研究;(3)改进暴露模型;(4)促进对暴露数据的二次利用,用于流行病学研究、暴露控制效果研究和趋势分析。关键词:气溶胶;空气;空气污染物;航空公司;生物监测;数据库;剂量测定法;食物;人体接触途径;液体;传质;测量建模;粒子;物理性质;保留;皮肤;固体;易位;水
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