Pastino G M, Yap W Y, Carroquino M
U.S. Environmental Protection Agency, National Center for Environmental Assessment, Washington, DC, USA.
Environ Health Perspect. 2000 May;108 Suppl 2(Suppl 2):201-14. doi: 10.1289/ehp.00108s2201.
Although humans vary in their response to chemicals, comprehensive measures of susceptibility have generally not been incorporated into human risk assessment. The U.S. EPA dose-response-based risk assessments for cancer and the RfD/RfC (reference dose-reference concentration) approach for noncancer risk assessments are assumed to protect vulnerable human subgroups. However, these approaches generally rely on default assumptions and do not consider the specific biological basis for potential susceptibility to a given toxicant. In an effort to focus more explicitly on this issue, this article addresses biological factors that may affect human variability and susceptibility to trichloroethylene (TCE), a widely used halogenated industrial solvent. In response to Executive Order 13045, which requires federal agencies to make protection of children a high priority in implementing their policies and to take special risks to children into account when developing standards, this article examines factors that may affect risk of exposure to TCE in children. The influence of genetics, sex, altered health state, coexposure to alcohol, and enzyme induction on TCE toxicity are also examined.
尽管人类对化学物质的反应存在差异,但易感性的综合衡量指标通常并未纳入人类风险评估中。美国环境保护局基于剂量反应的癌症风险评估以及用于非癌症风险评估的参考剂量/参考浓度(RfD/RfC)方法被认为可保护易受影响的人类亚组。然而,这些方法通常依赖默认假设,并未考虑对特定毒物潜在易感性的具体生物学基础。为了更明确地关注这一问题,本文探讨了可能影响人类变异性和对三氯乙烯(TCE,一种广泛使用的卤代工业溶剂)易感性的生物学因素。根据第13045号行政命令,该命令要求联邦机构在实施其政策时将保护儿童作为高度优先事项,并在制定标准时考虑对儿童的特殊风险,本文研究了可能影响儿童接触TCE风险的因素。还研究了遗传、性别、健康状态改变、同时接触酒精以及酶诱导对TCE毒性的影响。