Summary:Purpose: To characterize the pharmacokinetics of the new antiepileptic and CNS drug RWJ-333369 following single and multiple oral doses to healthy subjects, including the effect of food on bioavailability.Method: Two studies were conducted. The first study had a randomized, double-blind, placebo-controlled, sequential, ascending-dose crossover design. Subjects were divided into four dose groups (100, 250, 500, and 750 mg) of 10 to 11subjects each. RWJ-333369 or placebo was administered for two 7-day periods, separated by a 14-day washout. In the second study RWJ-333369 (750 mg) was administered to 12 healthy subjects under fasted and fed conditions. Plasma and urine samples were analyzed for RWJ-333369 by liquid chromatography-mass spectroscopy. Safety was assessed throughout the studies.Results: Mean (range) pharmacokinetic parameters in the above studies were: oral clearance (CL/F) 3.4-4.2 L/h, halflife (t 1/2 ) 10.6-12.8 h, and renal clearance (CLr) 0.042-0.094 L/h, indicating that RWJ-333369 is eliminated primarily by metabolism. These parameters were not significantly different (p > 0.05) for the four dose groups and for single and multiple dosing. C max and AUC increased proportionally with dose and decreased with food by 11% and 5%, respectively.Conclusions: Following single and repetitive (q12h) doses of 100-750 mg, RWJ-333369 had linear pharmacokinetics; food did not alter pharmacokinetics to a clinically relevant extent. RWJ-333369 is extensively metabolized and has a low CL/F that equals < 5% of the liver blood flow. Thus, orally administered RWJ-333369 has no hepatic first-pass effect. The 12-h half-life will enable bid dosing with an immediate-release oral formulation. Key words: RWJ-333369-New antiepileptic drugPharmacokinetics-Healthy subjects-Food effect.In the last decade 10 new antiepileptic drugs (AEDs) have been introduced, offering favorable pharmacokinetics, better tolerability and a lower potential for drug interactions (Bialer et al., 2002;Bialer et al., 2004;Perucca, 2000). In addition, the availability of old and new AEDs with varying spectra of activity and tolerability profiles enable clinicians to better tailor drug choice to the characteristics of the individual patients (Perucca, 2000). Despite the large therapeutic arsenal of old and new AEDs, about 30% of patients with epilepsy are still not seizure-free; thus, there is a substantial need to develop new AEDs (Walker and Sander, 1996). In this respect, the new AEDs developed thus far are not completely effective, as they allow achievement of a seizure-free status in no more than 15-20% of previously refractory patients (Perucca, 2000). (Fig. 1) is a new AED and CNS drug that is currently undergoing phase II clinical trials. The drug has a wide spectrum of anticonvulsant activity, with ED 50 ranging from 5 to 60 mg/kg in various rodent models, and there is a substantial safety margin between effective and neurotoxic doses. RWJ-333369 substantially reduced spontaneous seizures in rats with kainite-induced epilepsy to a grea...
