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Toxicol Lett


Title:Toxicokinetic modeling and its applications in chemical risk assessment
Author(s):Andersen ME;
Address:"Department of Environmental Health, International Center for Risk Assessment, Environmental Health Building, Colorado State University, Ft. Collins, CO 80523-1860, USA. mandersen@ciit.org"
Journal Title:Toxicol Lett
Year:2003
Volume:138
Issue:1-Feb
Page Number:9 - 27
DOI: 10.1016/s0378-4274(02)00375-2
ISSN/ISBN:0378-4274 (Print) 0378-4274 (Linking)
Abstract:"In recent years physiologically based pharmacokinetic (PBPK) modeling has found frequent application in risk assessments where PBPK models serve as important adjuncts to studies on modes of action of xenobiotics. In this regard, studies on mode of action provide insight into both the sites/mechanisms of action and the form of the xenobiotic associated with toxic responses. Validated PBPK models permit calculation of tissue doses of xenobiotics and metabolites for a variety of conditions, i.e. at low-doses, in different animal species, and in different members of a human population. In this manner, these PBPK models support the low-dose and interspecies extrapolations that are important components of current risk assessment methodologies. PBPK models are sometimes referred to as physiological toxicokinetic (PT) models to emphasize their application with compounds causing toxic responses. Pharmacokinetic (PK) modeling in general has a rich history. Data-based PK compartmental models were developed in the 1930's when only primitive tools were available for solving sets of differential equations. These models were expanded in the 1960's and 1970's to accommodate new observations on dose-dependent elimination and flow-limited metabolism. The application of clearance concepts brought many new insights about the disposition of drugs in the body. In the 1970's PBPK/PT models were developed to evaluate metabolism of volatile compounds of occupational importance, and, for the first time, dose-dependent processes in toxicology were included in PBPK models in order to assess the conditions under which saturation of metabolic and elimination processes lead to non-linear dose response relationships. In the 1980's insights from chemical engineers and occupational toxicology were combined to develop PBPK/PT models to support risk assessment with methylene chloride and other solvents. The 1990's witnessed explosive growth in risk assessment applications of PBPK/PT models and in applying sensitivity and variability methods to evaluate model performance. Some of the compounds examined in detail include butadiene, styrene, glycol ethers, dioxins and organic esters/aids. This paper outlines the history of PBPK/PT modeling, emphasizes more recent applications of PBPK/TK models in health risk assessment, and discusses the risk assessment perspective provided by modern uses of these modeling approaches"
Keywords:"Animals Dose-Response Relationship, Drug Humans *Models, Biological Risk Assessment/methods Xenobiotics/*pharmacokinetics/*toxicity;"
Notes:"MedlineAndersen, Melvin E eng Review Netherlands 2003/02/01 Toxicol Lett. 2003 Feb 18; 138(1-2):9-27. doi: 10.1016/s0378-4274(02)00375-2"

 
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