Environmental Risk Assessment of Time-Variable Toxicant Exposure with Toxicokinetic–Toxicodynamic Modeling of Sublethal Endpoints and Moving Time Windows: A Case Study with Ceriodaphnia dubia

IF 3.6 4区 环境科学与生态学 Q2 ENVIRONMENTAL SCIENCES
Carlo Romoli, Marie Trijau, Erik B. Muller, Liubov Zakharova, Roland Kuhl, Anja Coors, Neil Sherborne, Benoit Goussen, Roman Ashauer
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Abstract

Toxicokinetic–toxicodynamic (TKTD) modeling has received increasing attention in terms of the regulatory environmental risk assessment of chemicals. This type of mechanistic model can integrate all available data from individual-level bioassays into a single framework and enable refined risk assessments by extrapolating from laboratory results to time-variable exposure scenarios, based, for instance, on surface water exposure modeling (e.g., FOCUS). Dynamic energy budget (DEB) models coupled with TKTD modules (DEB–TKTD) constitute the leading approach to assess and predict sublethal effects of chemicals on individual organisms. However, thorough case studies are rare. We provide a state-of-the-art example with the standard aquatic test species Ceriodaphnia dubia and the fungicide azoxystrobin, including all steps, from bespoke laboratory toxicity tests to model calibration and validation, through to environmental risk assessment. Following the framework proposed in the European Food Safety Authority Scientific Opinion from 2018, we designed bespoke good laboratory practice–compliant laboratory toxicity studies based on test guideline 211 of the Organisation for Economic Co-operation and Development and then identified robust parameter values from those data for all relevant model parameters through model calibration. The DEB–TKTD model, DEBtox2019, then informed the design of the validation experiment. Once validated, the model was used to perform predictions for a time-variable exposure scenario generated by FOCUS. A moving time-window approach was used to perform the environmental risk assessment. This assessment method reduces uncertainty in the risk assessment while maintaining consistency with the traditional measures of risk. Environ Toxicol Chem 2024;43:2409–2421. © 2024 Syngenta Crop Protection AG. ibacon GmbH and The Author(s). Environmental Toxicology and Chemistry published by Wiley Periodicals LLC on behalf of SETAC.

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利用亚致死终点和移动时间窗口的毒动学-毒效学模型对时间可变的毒物暴露进行环境风险评估:关于糠虾的案例研究。
毒物动力学-毒力动力学(TKTD)模型在化学品环境风险监管评估方面受到越来越多的关注。这类机理模型可将个体生物测定的所有可用数据整合到一个单一框架中,并通过从实验室结果推断出时间可变的暴露情景,例如基于地表水暴露模型(如 FOCUS),进行精细化风险评估。动态能量预算(DEB)模型与 TKTD 模块(DEB-TKTD)相结合,是评估和预测化学品对生物个体亚致死效应的主要方法。然而,全面的案例研究并不多见。我们以标准水生测试物种糠虾和杀真菌剂唑菌酰胺为例,提供了一个最先进的案例,包括从定制实验室毒性测试到模型校准和验证,直至环境风险评估的所有步骤。按照 2018 年欧洲食品安全局科学意见提出的框架,我们根据经济合作与发展组织的测试指南 211,设计了符合良好实验室规范的定制实验室毒性研究,然后通过模型校准,从这些数据中为所有相关模型参数确定了稳健的参数值。DEB-TKTD 模型(DEBtox2019)为验证实验的设计提供了依据。验证完成后,该模型将用于对 FOCUS 生成的时变暴露情景进行预测。环境风险评估采用移动时间窗口法。这种评估方法降低了风险评估的不确定性,同时与传统的风险测量方法保持一致。环境毒物化学 2024;00:1-13。© 2024 Syngenta Crop Protection AG. ibacon GmbH and The Author(s).环境毒理学与化学》由 Wiley Periodicals LLC 代表 SETAC 出版。
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来源期刊
CiteScore
7.40
自引率
9.80%
发文量
265
审稿时长
3.4 months
期刊介绍: The Society of Environmental Toxicology and Chemistry (SETAC) publishes two journals: Environmental Toxicology and Chemistry (ET&C) and Integrated Environmental Assessment and Management (IEAM). Environmental Toxicology and Chemistry is dedicated to furthering scientific knowledge and disseminating information on environmental toxicology and chemistry, including the application of these sciences to risk assessment.[...] Environmental Toxicology and Chemistry is interdisciplinary in scope and integrates the fields of environmental toxicology; environmental, analytical, and molecular chemistry; ecology; physiology; biochemistry; microbiology; genetics; genomics; environmental engineering; chemical, environmental, and biological modeling; epidemiology; and earth sciences. ET&C seeks to publish papers describing original experimental or theoretical work that significantly advances understanding in the area of environmental toxicology, environmental chemistry and hazard/risk assessment. Emphasis is given to papers that enhance capabilities for the prediction, measurement, and assessment of the fate and effects of chemicals in the environment, rather than simply providing additional data. The scientific impact of papers is judged in terms of the breadth and depth of the findings and the expected influence on existing or future scientific practice. Methodological papers must make clear not only how the work differs from existing practice, but the significance of these differences to the field. Site-based research or monitoring must have regional or global implications beyond the particular site, such as evaluating processes, mechanisms, or theory under a natural environmental setting.
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