Phenotypic differences in mephenytoin pharmacokinetics in normal subjects

Abstract

The urinary metabolic profile of mephenytoin and its oxidative metabolites indicates significant stereoselective metabolism of its two enantiomers. Also, polymorphic oxidation, which is present in about 2 to 5% of the Caucasian population, has been demonstrated by an impaired ability to 4-hydroxylate this anticonvulsant. In order to determine the consequences of such metabolism, the plasma concentration/time profiles of the enantiomers of mephenytoin and its N-demethylated metabolite, phenylethylhydantoin (PEH), were investigated after a single p.o. dose of racemic mephenytoin in normal subjects with different metabolizing ability for mephenytoin [extensive metabolizer (EM) vs. poor metabolizer (PM) phenotypes]. In the EM subjects, the disposition of S- and R-mephenytoin was markedly different with a 100- to 200-fold difference in mean oral clearance (4.7 vs. 0.027 liters/min) and a 30- to 40-fold difference in elimination half-life (2.1 vs. 76 hr). In these same subjects, R-PEH concentrations significantly accumulated over several days and then very slowly declined with an apparent half-life of about 200 hr. Plasma levels of S-PEH were essentially negligible. In contrast, the stereoselective elimination of mephenytoin was reduced markedly in subjects of the PM phenotype, with the disposition of the S-enantiomer being the same as that for R-mephenytoin, which in turn was similar to that observed for this enantiomer in EMs. Almost comparable plasma levels of S- and R-PEH were also present in PMs. Only a small amount (less than 5%) of unchanged mephenytoin was excreted in the urine regardless of phenotype.(ABSTRACT TRUNCATED AT 250 WORDS)