The disposition of the new anti-epileptic agent oxcarbazepine (10,11-dihydro-10-oxo-5H-dibenz[b,f]azepine-5-carboxamide) has been studied in two healthy volunteers following an oral 400 mg dose of 14C-labelled drug. The dose was excreted almost completely in the urine (94.6 and 97.1%) within six days. Faecal excretion amounted to 4.3 and 1.9% of the dose in the two subjects. In the 0-6 days urine samples the biotransformation products have been isolated and identified. 10,11-Dihydro-10-hydroxycarbamazepine (GP 47,779) and its two diastereoisomeric O-glucuronides were found as main metabolites. Taken together, they accounted for 79% of urinary 14C. Unchanged oxcarbazepine, and its sulphate and glucuronide conjugates were isolated in smaller amounts only (13%). Other minor metabolites were the trans- and cis-isomers of 10,11-dihydro-10,11-dihydroxy-carbamazepine (approximately 4%), and a phenolic derivative of GP 47,779 (less than 1%). The biotransformation of oxcarbazepine proceeds mainly by reduction to GP 47,779, and subsequent conjugation with glucuronic acid. Reduction is stereospecific, favouring the S-configuration of GP 47,779. Direct conjugation of oxcarbazepine, in the enol form, is a minor pathway. Oxidative reactions are unimportant.
The antiepileptic drug (AED) oxcarbazepine (OCBZ) and its rapidly formed 10-monohydroxy metabolite (MHD) protect against electroshock-induced tonic hindlimb extension in rodents (ED50 14-21 mg/kg p.o.). Both stereoisomers of MHD also protect. As with carbamazepine (CBZ), these findings suggest clinical efficacy against generalized tonic-clonic and, to some extent, partial seizures. OCBZ (IC50 5 x 10(-8) M), MHD (IC50 2 x 10 (-8) M), and CBZ (IC50 6 x 10(-7) M) limit the frequency of firing of sodium-dependent action potentials by cultured mouse central neurons and reduce Vmax progressively in a use-dependent manner at concentrations below therapeutic plasma concentrations in OCBZ-treated patients. This suggests that blockade of voltage-sensitive sodium channels could contribute to the antiepileptic efficacy of OCBZ. Blockade of penicillin-induced epileptiform discharges in hippocampal slices by MHD and its stereoisomers was diminished when the potassium channel blocker 4-aminopyridine was added to the bath fluid. This indicates that additional mechanisms of action, e.g., an effect on potassium channels, might be clinically important. In addition, both stereoisomers are equally responsible for the antiepileptic activity of the racemate, i.e., MHD, and are therefore likely to play a therapeutic role. Such actions could confer broad clinical utility on OCBZ.
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