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Chem Res Toxicol


Title:Quantitative structure-property relationships for interspecies extrapolation of the inhalation pharmacokinetics of organic chemicals
Author(s):Beliveau M; Lipscomb J; Tardif R; Krishnan K;
Address:"Groupe de Recherche en Toxicologie Humaine (TOXHUM), Universite de Montreal, Case Postale 6128, Succursale Centre Ville, Montreal, PQ, H3C 3J7, Canada"
Journal Title:Chem Res Toxicol
Year:2005
Volume:18
Issue:3
Page Number:475 - 485
DOI: 10.1021/tx049722k
ISSN/ISBN:0893-228X (Print) 0893-228X (Linking)
Abstract:"The objectives of this study were to (i) develop quantitative structure-property relationships (QSPRs) for blood:air partition coefficients (Pb:a), tissue:air partition coefficients (Pt:a), and hepatic clearance (CLh) and (ii) conduct interspecies extrapolations of the pharmacokinetics of low molecular weight volatile organic chemicals (VOCs) by incorporating the above QSPRs within a physiologically based pharmacokinetic (PBPK) modeling framework. Pb:a and Pt:a were predicted using the following algorithm: FnlxPo:a+FwxPw:a+f(b)xFpxPp:a, where Fnl=content of neutral lipid equivalents in biological matrix, Fw=content of water equivalents in biological matrix, Fp=protein content of blood and tissues, Po:a=vegetable oil:air partition coefficient, Pw:a=water:air partition coefficient, f(b)=fraction of total protein involved in the partitioning process, and Pp:a=protein:air partition coefficient. CLh was estimated as follows: Qlx[(CLintxC(P4502E1)xVl)/(Ql+CLintxC(P4502E1)xVl)], where CLint=intrinsic clearance normalized for P450 2E1 content, Ql=blood flow to the liver, C(P4502E1)=hepatic concentration of P450 2E1 in the species of interest, and Vl=volume of liver. QSPRs relating molecular fragments of 46 VOCs and parameters required for estimating Pb:a, Pt:a, and CLh (namely, Po:a, Pw:a, Pp:a, and CLint) were established using a group contribution method (f(i)xCi, where f=frequency of occurrence of the group i in a given molecule and Ci=contribution of the group i to Po:a, Pw:a, Pp:a, or CLint). Values of group contributions were determined by multilinear regression of experimental data. The species specific parameters required for solving the above algorithms were obtained from the literature. These algorithms, once incorporated into a multispecies PBPK modeling framework, enabled extrapolation of the kinetics of chemicals across species. The inhalation pharmacokinetics of dichloromethane and toluene as well as two de novo compounds (1,2,4-trimethyl benzene and ethyl benzene) were extrapolated from rat to human, using the present modeling methodology. This study has demonstrated that it is possible to extrapolate the pharmacokinetic behavior of chemicals from rats to humans on the basis of QSPRs and species specific physiological information"
Keywords:"Administration, Inhalation Air Pollutants/chemistry/classification/*pharmacology Animals Humans *Inhalation Exposure Organic Chemicals/chemistry/classification/*pharmacokinetics *Quantitative Structure-Activity Relationship Rats Species Specificity;"
Notes:"MedlineBeliveau, Martin Lipscomb, John Tardif, Robert Krishnan, Kannan eng Comparative Study Research Support, Non-U.S. Gov't 2005/03/22 Chem Res Toxicol. 2005 Mar; 18(3):475-85. doi: 10.1021/tx049722k"

 
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