115年3月3日更新:近年環醫所執行多項重大政策型計畫及維運非動物性替代資訊網(TAAT),為提供更全面的相關資訊,已重整國家環境毒物研究中心(簡稱環毒中心)網頁。原TAAT網站的毒性測試方法及次世代風險評估將於環毒中心的「危害鑑定與評估專區」繼續分享。
最新消息
- 美國人體健康參考值的比較性回顧(Comparative review of human health reference values of the United States)
- 體外至體內推估(IVIVE)方法推導化學物質健康指引值:神經、肝臟與發育毒性之案例比較分析(Application of In Vitro to In Vivo Extrapolation (IVIVE) to Inform Chemical Health Guidance Values Derivation – Sample Case Studies Comparing Neuro , Hepato-, and Developmental Toxicities)
- 人體暴露體資料納入次世代風險評估:推估真實暴露程度並排序化學物質優先測試之系統性架構(Integrating human exposome data into next-generation risk assessment: a systematic framework to infer real-life exposure levels and prioritize chemical compounds for testing)
- 用於模擬氯氣毒性的「人類呼吸道晶片」微生理系統(Human Airway-on-a-Chip Microphysiological System for Modeling Chlorine Gas Toxicity)
- 以高解析度質譜為基礎之疑似物篩查技術於環境、食品與人體樣本中化學混合物之鑑定(Determination of Chemical Mixtures in Environmental, Food, and Human Samples Using High-Resolution Mass Spectrometry-Based Suspect Screening Approaches)
- 用於發育神經毒性之體外至體內外推(IVIVE)評估:生理基礎藥物動力學(PBPK)建模平台之比較研究(Comparison of physiologically based pharmacokinetic modeling platforms for developmental neurotoxicity in vitro to in vivo extrapolation)
- 環境混合物生態危害與風險的計算式表徵(Computational Characterisation of Ecological Hazard and Risk of Environmental Mixtures)
- 以「健康一體(One Health)」概述PFAS對動物、人類及環境的影響 (An overview of the impact of PFAS on animals, humans, and the environment using a One Health approach)
- 美國環保署宣布擬規範五種鄰苯二甲酸酯化學品的數十種用途
- 美國環境保護署(US EPA)發布在線工具Computational Toxicology (CompTox) Chemicals Dashboard更新