Application of a Physiologically Based Pharmacokinetic Model to Estimate the Bioavailability of Ethanol in Male Rats: Distinction between Gastric and Hepatic Pathways of Metabolic Clearance

doi:10.1093/toxsci/55.2.256

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Toxicological Sciences 55, 256-265 (2000)
Copyright © 2000 by the Society of Toxicology

Application of a Physiologically Based Pharmacokinetic Model to Estimate the Bioavailability of Ethanol in Male Rats: Distinction between Gastric and Hepatic Pathways of Metabolic Clearance

Gina M. Pastino^*^,1 and Rory B. Conolly

^* Schering Plough Research Institute, P.O. Box 32, Lafayette, New Jersey 07848; and Chemical Industry Institute of Toxicology, Research Triangle Park, North Carolina 27709

A portion of ingested ethanol does not reach the systemic circulationin both rats and humans as indicated by higher blood ethanolconcentrations following an intravenous administration comparedto an equivalent oral administration. The mechanism for thisdecrease in the oral bioavailability is not yet completely understood.Metabolism by gastric or hepatic alcohol dehydrogenase (ADH),or both, has been implicated. However, the extent to which eachpathway of elimination contributes to the first-pass clearanceis not known. The purpose of this study was to utilize a physiologicallybased pharmacokinetic (PBPK) model for ethanol to estimate therelative contributions of hepatic and gastric metabolic clearanceto the oral bioavailability of ethanol in male rats. In thecurrent model, calculations of hepatic-first pass metabolicclearance accounted for the competition for metabolism betweenincoming ethanol from the GI tract and recirculating ethanol.This differs from previous methods that quantified the effectof ethanol entering the liver from the GI tract on the overallrate of metabolism of ethanol by the liver. These models didnot specifically describe the effect of recirculating ethanolon the first-pass metabolism of ethanol, and vice versa. Thedependence of bioavailability on dose and absorption rate wasalso investigated. The use of a PBPK model for ethanol in ratsallows a more detailed examination of physiological and biochemicalfactors affecting the bioavailability of ethanol than has previouslybeen possible. The analysis indicates that both gastric andhepatic first-pass metabolism of ethanol contribute to ethanolbioavailability in male rats.

Key Words: blood ethanol concentrations; gastric and hepatic alcohol dehydrogenase; ethanol metabolism; PBPK modeling.

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