毒物动力学
外推法
背景(考古学)
人口
毒物动力学
毒理
计量经济学
统计
风险分析(工程)
环境科学
生物
医学
环境卫生
药理学
数学
药代动力学
古生物学
作者
John F. Reichard,Marc A. Maier,Bruce D. Naumann,Alison M. Pecquet,Thomas D. Pfister,Reena Sandhu,Edward V. Sargent,Anthony J. Streeter,Patricia A. Weideman
标识
DOI:10.1016/j.yrtph.2016.05.027
摘要
The purpose of this paper is to describe the use of toxicokinetic (TK) and toxicodynamic (TD) data in setting acceptable daily exposure (ADE) values and occupational exposure limits (OELs). Use of TK data can provide a more robust exposure limit based on a rigorous evaluation of systemic internal dose. Bioavailability data assist in extrapolating across different routes of exposure to be protective for route-based differences of exposure. Bioaccumulation data enable extrapolation to chronic exposures when the point of departure (PoD) is from a short-term critical study. Applied in the context of chemical-specific adjustment factors (CSAFs), TK data partially replace traditional default adjustment factors for interspecies extrapolation (extrapolation from studies conducted in animals to humans) and intraspecies variability (to account for human population variability). Default adjustments of 10-fold each for interspecies and intraspecies extrapolation are recommended in several guidelines, although some organization recommend other values. Such default factors may overestimate variability for many APIs, while not being sufficiently protective for variability with other APIs. For this reason, the use of chemical specific TK and TD data are preferred. Making full use of existing TK and TD data reduces underlying uncertainties, increases transparency, and ensures that resulting ADEs reflect the best available science.
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