Physiologically Based Pharmacokinetic Modelling of Percutaneously Absorbed Dibromomethane Utilizing Multiple Dermal Sub-Compartments

Abstract

The goal of this study was to develop a physiologically based pharmacokinetic (PBPK) model that predicts mammalian blood concentrations of dibromomethane following exposure by dermal absorption more accurately than a previously developed Homogeneous Dermal Model. The Homogeneous Dermal Model contains a dermal compartment with no dermal sub-compartments. The 1:1 Dermal Model developed in this research contains a dermal compartment with a stratum corneum and a composite dermal sub-compartment of equal volume. This model yields predictions which are 21.4 percent more accurate than the original homogeneous model. In order to represent skin anatomy more accurately, the 1:10 Dermal Model variation was developed. The 1:10 Dermal model contains a dermal compartment with a composite dermal sub-compartment ten times the volume of the stratum corneum sub-compartment. The 1:10 Dermal Model yields predictions which are 17.7 percent more accurate than the original model. Finally, the 1:3:7 Dermal Model was developed which contains a viable epidermis sub-compartment three times the volume of the stratum corneum sub-compartment and a composite dermal sub-compartment which is seven times the volume of the stratum corneum sub-compartment. This model yields predictions 27.7 percent more accurate than the original model. Physiologically Based Pharmacokinetic model, Pharmacokinetic model, Mathematical model, Dermal Absorption.

Document Details

Document Type

Technical Report

Publication Date

Sep 01, 1993

Accession Number

ADA271106

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