An experimental study on ethanol elimination at subphysiological temperatures.

: Hepatocytes isolated from fed and fasted rats have been used to study the rate of ethanol elimination at different incubation temperatures. In the presence of exogenous pyruvate, hepatocytes from fed and 42 hr fasted rats, eliminated ethanol at 37$dG by a rate of 11.6 ±3.4 and 6.4 ± 0.8 nmol/min./mg of cell protein (±S.D.; n = 5), respectively, which are comparable to the rates obtained in vivo. The ethanol oxidation rate in cells from rats of both nutritional states correlated linearily to the incubation temperature (t = 24-37$dG) with a temperature coefficient (Q10) of 1.8-2.3. (Q10, (= temperature coefficient) is the factor by which the enzyme activity is increased on raising the temperature 10$dG). These findings indicate that the oxidation is not controlled by processes which involve membrane transitions in the temperature range 24-37$dG. Our results indicate that a hypothermic individual with a body temperature of 27$dG would have a 40-50 per cent inhibition of the ethanol elimination rate. Thus, the observed dependency of the ethanol oxidation on the body temperature has to be regarded in back-calculations of blood ethanol concentrations in forensic toxicology.