基于途径的预测方法，用于非动物评估急性吸入毒性。

Pathway-based predictive approaches for non-animal assessment of acute inhalation toxicity.

机构信息

PETA International Science Consortium Ltd., Society Building, 8 All Saints Street, London N1 9RL, United Kingdom.

Integrated Laboratory Systems, Contractor Supporting the NTP Interagency Center for the Evaluation of Alternative Toxicological Methods, Research Triangle Park, NC, United States.

出版信息

Toxicol In Vitro. 2018 Oct;52:131-145. doi: 10.1016/j.tiv.2018.06.009. Epub 2018 Jun 20.

DOI:10.1016/j.tiv.2018.06.009

PMID:29908304

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6760245/

Abstract

New approaches are needed to assess the effects of inhaled substances on human health. These approaches will be based on mechanisms of toxicity, an understanding of dosimetry, and the use of in silico modeling and in vitro test methods. In order to accelerate wider implementation of such approaches, development of adverse outcome pathways (AOPs) can help identify and address gaps in our understanding of relevant parameters for model input and mechanisms, and optimize non-animal approaches that can be used to investigate key events of toxicity. This paper describes the AOPs and the toolbox of in vitro and in silico models that can be used to assess the key events leading to toxicity following inhalation exposure. Because the optimal testing strategy will vary depending on the substance of interest, here we present a decision tree approach to identify an appropriate non-animal integrated testing strategy that incorporates consideration of a substance's physicochemical properties, relevant mechanisms of toxicity, and available in silico models and in vitro test methods. This decision tree can facilitate standardization of the testing approaches. Case study examples are presented to provide a basis for proof-of-concept testing to illustrate the utility of non-animal approaches to inform hazard identification and risk assessment of humans exposed to inhaled substances.

摘要

需要新的方法来评估吸入物质对人类健康的影响。这些方法将基于毒性机制、对剂量学的理解，以及使用计算建模和体外测试方法。为了加速更广泛地采用这些方法，可以开发不良结局途径 (AOP)，以帮助确定和解决我们对模型输入和机制相关参数理解的差距，并优化可用于研究毒性关键事件的非动物方法。本文描述了可用于评估吸入暴露后导致毒性的关键事件的 AOP 和体外及计算模型工具包。由于最佳测试策略将取决于感兴趣的物质，因此我们在这里提出了一种决策树方法来确定适当的非动物综合测试策略，该策略考虑了物质的物理化学特性、相关毒性机制以及可用的计算模型和体外测试方法。该决策树可以促进测试方法的标准化。提供案例研究示例，以提供概念验证测试的基础，说明非动物方法在告知人类暴露于吸入物质的危害识别和风险评估方面的实用性。

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