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Phenotypic Differences in Mephenytoin Pharmacokinetics in Normal Subjects

P J Wedlund, W S Aslanian, E Jacqz, C B McAllister, R A Branch, G R Wilkinson

J Pharmacol Exp Ther. 1985 Sep;234(3):662-9.

PMID: 4032286

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)

Chemicals Related in the Paper:

Catalog Number Product Name Structure CAS Number Price
AP50124-A Mephenytoin Mephenytoin 50-12-4 Price
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