A physiological model for the pharmacokinetics of methylene chloride in B6C3F1 mice following i.v. administrations

Abstract

A physiologic mathematical model was developed to describe the time course of¹⁴C-methylene chloride (¹⁴CH₂Cl₂) distribution and elimination in mice following single i.v. administrations of 10 and 50mg/kg. A whole-body model was used to simulate¹⁴CH₂Cl₂ concentrations in blood and tissues, pulmonary clearance of unchanged¹⁴CH₂Cl₂, and metabolic conversion to¹⁴CO₂ and¹⁴CO as monitored by the appearances of these metabolites in expired breath. This diffusion-limited model was identified via a sequential optimization scheme using hybrid models for each compartment. Pulmonary elimination of unchanged¹⁴CH₂Cl₂ was modeled as a linear process while hepatic metabolism of¹⁴CH₂Cl₂ to the compounds¹⁴CO₂and¹⁴CO was described by a saturable metabolic rate term. The model adequately described the dose dependence in methylene chloride distribution and metabolism when simulations were compared to experimental data.