Halothane accumulation in rat brain and liver.

Abstract

Halothane concentrations (microgram/g wet weight) was measured in rat brain and liver following exposure to various concentrations of halothane in air. Because of the difficulty of determining the amount of a volatile compound in brain, we analyzed tissue fixed by two different methods. The apparent concentration of halothane in brain was higher following direct decapitation into liquid nitrogen, than after decapitation, removal of fresh tissue, and then freezing. However, the relative effects of altering the inspired concentration were essentially the same in each case. Thus, absolute quantitative accuracy remains a point for discussion; however, we can reach several conclusions regarding the relative accumulation of halothane in brain tissue following various conditions of exposure. Resultant tissue concentrations of halothane were not linearly related to ambient concentrations. Above an inspired concentrations of 1.0%, an increase to 1.5% inspired concentration caused little further increase in the halothane concentration in brain, although the liver concentration increased in proportion to the dose increase. Below an inspired concentration of 0.5%, tissue concentrations were less expected, probably as a result of metabolic degradation occurring at a rate that becomes more noticeable at lower inspired concentrations. Body size was shown to be an important variable affecting the time required for each tissue to reach equilibrium at a given inspired concentration. These data indicate that tissue concentrations at low exposure levels may be less than proportional at dose and that concentrations in small laboratory animals may be expected to exceed values in humans under equivalent conditions of exposure.