Approaches to developing alternative and predictive toxicology based on PBPK/PD and QSAR modeling

Autor:	Henk J. M. Verhaar, Russell S. Thomas, Daniel L. Gustafson, Moiz Mumtaz, Stephen A. Benjamin, Julie A. Campain, Raymond S. H. Yang
Rok vydání:	1998
Předmět:	Physiologically based pharmacokinetic modelling Quantitative structure–activity relationship End point Chemistry Health Toxicology and Mutagenesis Cellular biomarkers Public Health Environmental and Occupational Health Predictive toxicology Computational biology Models Biological Embryo cell Structure-Activity Relationship Chemical mixtures Predictive Value of Tests Environmental chemistry Toxicity Tests Animals Humans Pharmacokinetics Algorithms In vitro cell culture Research Article
Zdroj:	Environmental Health Perspectives
ISSN:	1552-9924 0091-6765
DOI:	10.1289/ehp.98106s61385
Popis:	Systematic toxicity testing, using conventional toxicology methodologies, of single chemicals and chemical mixtures is highly impractical because of the immense numbers of chemicals and chemical mixtures involved and the limited scientific resources. Therefore, the development of unconventional, efficient, and predictive toxicology methods is imperative. Using carcinogenicity as an end point, we present approaches for developing predictive tools for toxicologic evaluation of chemicals and chemical mixtures relevant to environmental contamination. Central to the approaches presented is the integration of physiologically based pharmacokinetic/pharmacodynamic (PBPK/PD) and quantitative structure--activity relationship (QSAR) modeling with focused mechanistically based experimental toxicology. In this development, molecular and cellular biomarkers critical to the carcinogenesis process are evaluated quantitatively between different chemicals and/or chemical mixtures. Examples presented include the integration of PBPK/PD and QSAR modeling with a time-course medium-term liver foci assay, molecular biology and cell proliferation studies. Fourier transform infrared spectroscopic analyses of DNA changes, and cancer modeling to assess and attempt to predict the carcinogenicity of the series of 12 chlorobenzene isomers. Also presented is an ongoing effort to develop and apply a similar approach to chemical mixtures using in vitro cell culture (Syrian hamster embryo cell transformation assay and human keratinocytes) methodologies and in vivo studies. The promise and pitfalls of these developments are elaborated. When successfully applied, these approaches may greatly reduce animal usage, personnel, resources, and time required to evaluate the carcinogenicity of chemicals and chemical mixtures. Images Figure 6
Databáze:	OpenAIRE
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