Chemicals 2.0 and Why We Need to Bypass the Gold Standard in Regulatory Toxicology.

IF 2.4 4区医学 Q3 MEDICINE, RESEARCH & EXPERIMENTAL

Atla-Alternatives To Laboratory Animals Pub Date : 2024-10-30 DOI:10.1177/02611929241296328

Andrew P Worth, Elisabet Berggren, Pilar Prieto

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引用次数: 0

Abstract

The use of adverse effect data from animals as the gold standard in regulatory toxicology has a long tradition dating back to the 1960s. It has also been increasingly criticised, based on both scientific and animal welfare concerns, and yet, animal studies remain the gold standard in most areas of toxicology to this very day. In the 1980s, when the first generation of non-animal methods were evaluated as alternatives to animal testing, it was logical to compare the 'new' data obtained with historical animal data. This worked reasonably well for simple endpoints, such as skin and eye irritation, but became problematic for the more complex systemic endpoints, since in these cases, the in vivo effects are not directly comparable to those observed in in vitro systems. While the need to redefine the gold standard is not new, there is still no consensus on how to do so. We propose a consistent principle that avoids the need for animal reference data, while also ensuring an equivalent or better level of protection. We argue that the gold standard can be redefined, or rather bypassed, by focusing on risk management outcomes rather than the outputs of animal methods. This allows us to more efficiently protect human health and the environment, ensuring the safe use of chemicals while also identifying less hazardous chemicals for use as substitutes. We describe how this might work out for two main contexts of use: classification and labelling, and risk assessment. This has implications for the implementation of the EU Commission Roadmap toward the phasing out of animal testing in chemical safety assessments.

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化学品 2.0 和为什么我们需要绕过毒物学监管的黄金标准》（Chemicals 2.0 and Why We Need to Bypass the Gold Standard in Regulatory Toxicology）。

将动物的不良反应数据作为毒理学监管的黄金标准由来已久，可追溯到 20 世纪 60 年代。基于科学和动物福利两方面的考虑，这种做法受到越来越多的批评，但时至今日，动物研究仍是毒理学大多数领域的黄金标准。20 世纪 80 年代，当第一代非动物实验方法作为动物实验的替代方法进行评估时，将获得的 "新 "数据与动物实验的历史数据进行比较是合乎逻辑的。对于皮肤和眼睛刺激等简单的终点，这种方法还算行之有效，但对于更复杂的全身终点，这种方法就成了问题，因为在这些情况下，体内效应与体外系统中观察到的效应无法直接比较。虽然重新定义黄金标准的需求并不新鲜，但如何定义仍未达成共识。我们提出了一个一致的原则，既避免了对动物参考数据的需求，又确保了同等或更好的保护水平。我们认为，可以重新定义黄金标准，或者说绕过黄金标准，把重点放在风险管理结果上，而不是动物方法的输出上。这样，我们就能更有效地保护人类健康和环境，确保化学品的安全使用，同时还能找出危险性较低的化学品作为替代品。我们将介绍如何在分类和标签以及风险评估这两个主要使用环境中实现这一点。这对欧盟委员会在化学品安全评估中逐步淘汰动物试验的路线图的实施具有影响。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Atla-Alternatives To Laboratory Animals 农林科学-兽医学

CiteScore

3.80

自引率

3.70%

发文量

审稿时长

>18 weeks

期刊介绍： Alternatives to Laboratory Animals (ATLA) is a peer-reviewed journal, intended to cover all aspects of the development, validation, implementation and use of alternatives to laboratory animals in biomedical research and toxicity testing. In addition to the replacement of animals, it also covers work that aims to reduce the number of animals used and refine the in vivo experiments that are still carried out.