PBTK modelling platforms and parameter estimation tools to enable animal-free risk assessment: recommendations from a joint EPAA--EURL ECVAM ADME workshop

Information on toxicokinetics is critical for animal-free human risk assessment. Human external exposure must be translated into human tissue doses and compared with in vitro actual cell exposure associated to effects (in vitro-in vivo comparison). Data on absorption, distribution, metabolism and ex...

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Veröffentlicht in:	Regulatory toxicology and pharmacology 2014-02, Vol.68 (1), p.119-139
Hauptverfasser:	Bessems, Jos G, Loizou, George, Krishnan, Kannan, Clewell, 3rd, Harvey J, Bernasconi, Camilla, Bois, Frederic, Coecke, Sandra, Collnot, Eva-Maria, Diembeck, Walter, Farcal, Lucian Romeo, Geraets, Liesbeth, Gundert-Remy, Ursula, Kramer, Nynke, Küsters, Gabriele, Leite, Sofia B, Pelkonen, Olavi R, Schröder, Klaus, Testai, Emanuela, Wilk-Zasadna, Iwona, Zaldívar-Comenges, José-Manuel
Format:	Artikel
Sprache:	eng
Schlagworte:	Animal Testing Alternatives Drug-Related Side Effects and Adverse Reactions Environmental Exposure - adverse effects Environmental Pollutants - pharmacokinetics Environmental Pollutants - toxicity Humans Life Sciences Models, Biological Pharmacokinetics Risk Assessment Toxicology
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container_title	Regulatory toxicology and pharmacology
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creator	Bessems, Jos G Loizou, George Krishnan, Kannan Clewell, 3rd, Harvey J Bernasconi, Camilla Bois, Frederic Coecke, Sandra Collnot, Eva-Maria Diembeck, Walter Farcal, Lucian Romeo Geraets, Liesbeth Gundert-Remy, Ursula Kramer, Nynke Küsters, Gabriele Leite, Sofia B Pelkonen, Olavi R Schröder, Klaus Testai, Emanuela Wilk-Zasadna, Iwona Zaldívar-Comenges, José-Manuel
description	Information on toxicokinetics is critical for animal-free human risk assessment. Human external exposure must be translated into human tissue doses and compared with in vitro actual cell exposure associated to effects (in vitro-in vivo comparison). Data on absorption, distribution, metabolism and excretion in humans (ADME) could be generated using in vitro and QSAR tools. Physiologically-based toxicokinetic (PBTK) computer modelling could serve to integrate disparate in vitro and in silico findings. However, there are only few freely-available PBTK platforms currently available. And although some ADME parameters can be reasonably estimated in vitro or in silico, important gaps exist. Examples include unknown or limited applicability domains and lack of (high-throughput) tools to measure penetration of barriers, partitioning between blood and tissues and metabolic clearance. This paper is based on a joint EPAA--EURL ECVAM expert meeting. It provides a state-of-the-art overview of the availability of PBTK platforms as well as the in vitro and in silico methods to parameterise basic (Tier 1) PBTK models. Five high-priority issues are presented that provide the prerequisites for wider use of non-animal based PBTK modelling for animal-free chemical risk assessment.
doi_str_mv	10.1016/j.yrtph.2013.11.008
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subjects	Animal Testing Alternatives Drug-Related Side Effects and Adverse Reactions Environmental Exposure - adverse effects Environmental Pollutants - pharmacokinetics Environmental Pollutants - toxicity Humans Life Sciences Models, Biological Pharmacokinetics Risk Assessment Toxicology
title	PBTK modelling platforms and parameter estimation tools to enable animal-free risk assessment: recommendations from a joint EPAA--EURL ECVAM ADME workshop
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