Abstract.
In vitro rates of metabolism and Michaelis-Menten constants were determined for 25 different C6 to C10 hydrocarbons using rat liver slices in a vial head-space equilibration system. The rates of metabolism were compared with steady-state levels obtained in vivo in the same strains of rats after inhalation. Aromates were metabolized at a higher rate than naphthenes, n-alkanes, isoalkanes and 1-alkenes. The aromates showed, in contrast to the other hydrocarbons investigated, increased metabolism with increasing number of carbon atoms up to C8 (o-xylene, the most extensively metabolized compound). The in vivo steady-state concentrations of the aromates in blood were inversely related to the in vitro efficiency of their metabolism. This explains the pattern of blood levels observed for the C6 to C10 aromates in the rat after inhalation, with o-xylene demonstrating the lowest concentration. In general, the extent of tissue metabolism of the investigated hydrocarbons might be of greater importance for their body distribution than their lipophilicity, especially for the highly metabolized compounds. The high in vitro intrinsic liver clearances found for the aromates indicate a flow-dependent metabolism of these hydrocarbons in vivo. The head-space liver slice equilibration system seems to work adequately for metabolic studies of hydrocarbons with different volatility and water solubility.
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Mortensen, B., Eide, I., Zahlsen, K. et al. Prediction of in vivo metabolic clearance of 25 different petroleum hydrocarbons by a rat liver head-space technique. Arch Toxicol 74, 308–312 (2000). https://doi.org/10.1007/s002040000135
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DOI: https://doi.org/10.1007/s002040000135