Assessment of quantitative structure-activity relationship of toxicity prediction models for Korean chemical substance control legislation.

Q3 Medicine
Environmental Health and Toxicology Pub Date : 2015-06-12 eCollection Date: 2015-01-01 DOI:10.5620/eht.s2015007
Kwang-Yon Kim, Seong Eun Shin, Kyoung Tai No
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引用次数: 8

Abstract

Objectives: For successful adoption of legislation controlling registration and assessment of chemical substances, it is important to obtain sufficient toxicological experimental evidence and other related information. It is also essential to obtain a sufficient number of predicted risk and toxicity results. Particularly, methods used in predicting toxicities of chemical substances during acquisition of required data, ultimately become an economic method for future dealings with new substances. Although the need for such methods is gradually increasing, the-required information about reliability and applicability range has not been systematically provided.

Methods: There are various representative environmental and human toxicity models based on quantitative structure-activity relationships (QSAR). Here, we secured the 10 representative QSAR-based prediction models and its information that can make predictions about substances that are expected to be regulated. We used models that predict and confirm usability of the information expected to be collected and submitted according to the legislation. After collecting and evaluating each predictive model and relevant data, we prepared methods quantifying the scientific validity and reliability, which are essential conditions for using predictive models.

Results: We calculated predicted values for the models. Furthermore, we deduced and compared adequacies of the models using the Alternative non-testing method assessed for Registration, Evaluation, Authorization, and Restriction of Chemicals Substances scoring system, and deduced the applicability domains for each model. Additionally, we calculated and compared inclusion rates of substances expected to be regulated, to confirm the applicability.

Conclusions: We evaluated and compared the data, adequacy, and applicability of our selected QSAR-based toxicity prediction models, and included them in a database. Based on this data, we aimed to construct a system that can be used with predicted toxicity results. Furthermore, by presenting the suitability of individual predicted results, we aimed to provide a foundation that could be used in actual assessments and regulations.

Abstract Image

韩国化学物质管制立法中毒性预测模型定量构效关系评价。
目的:为了成功通过控制化学物质注册和评估的立法,重要的是获得足够的毒理学实验证据和其他相关信息。获得足够数量的预测风险和毒性结果也很重要。特别是,在获取所需数据期间用于预测化学物质毒性的方法最终成为未来处理新物质的一种经济方法。虽然对这种方法的需求正在逐渐增加,但有关可靠性和适用范围的必要资料尚未系统地提供。方法:基于定量构效关系(QSAR)建立了多种具有代表性的环境和人体毒性模型。在这里,我们获得了10个具有代表性的基于qsar的预测模型及其信息,这些模型可以对预期受到监管的物质进行预测。我们使用模型来预测和确认根据立法收集和提交的信息的可用性。在收集和评估各个预测模型及相关数据后,制定量化预测模型科学效度和信度的方法,这是预测模型使用的必要条件。结果:计算出模型的预测值。此外,我们使用评估化学物质注册、评估、授权和限制评分系统的替代非测试方法来推导和比较模型的不足之处,并推导出每个模型的适用范围。此外,我们计算和比较了预计被管制物质的包含率,以确认其适用性。结论:我们评估和比较了我们选择的基于qsar的毒性预测模型的数据、充分性和适用性,并将其纳入数据库。基于这些数据,我们的目标是构建一个可以预测毒性结果的系统。此外,通过展示个别预测结果的适用性,我们旨在为实际评估和监管提供基础。
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来源期刊
Environmental Health and Toxicology
Environmental Health and Toxicology Medicine-Public Health, Environmental and Occupational Health
CiteScore
2.50
自引率
0.00%
发文量
0
审稿时长
8 weeks
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