AIMS: To evaluate potential pharmacokinetic interactions between phenobarbitone and retigabine, a new antiepileptic drug. METHODS: Fifteen healthy men received 200 mg of retigabine on day 1. On days 4-32, phenobarbitone 90 mg was administered at 22.00 h. On days 26-32, increasing doses of retigabine were given to achieve a final dose of 200 mg every 8 h on day 32. The pharmacokinetics of retigabine were determined on days 1 and 32, and those for phenobarbitone on days 25 and 31. RESULTS: After administration of a single 200 mg dose, retigabine was rapidly absorbed and eliminated with a mean terminal half-life of 6.7 h, a mean AUC of 3936 ng x ml(-1) x h and a mean apparent clearance of 0.76 l x h(-1) x kg(-1). Similar exposure to the partially active acetylated metabolite (AWD21-360) of retigabine was observed. After administration of phenobarbitone dosed to steady-state, the pharmacokinetics of retigabine at steady-state were similar (AUC of 4433 ng x ml(-1) x h and t1/2 of 8.5 h) to those of retigabine alone. The AUC of phenobarbitone was 298 mg x l(-1) x h when administered alone and 311 mg x ml(-1) x h after retigabine administration. The geometric mean ratios and 90% confidence intervals of the AUC were 1.11 (0.97, 1.28) for retigabine, 1.01 (0.88, 1.06) for AWD21-360 and 1.04 (0.96, 1.11) for phenobarbitone. Individual and combined treatments were generally well tolerated. One subject was withdrawn from the study on day 10 due to severe abdominal pain. Headache was the most commonly reported adverse event. No clinically relevant changes were observed in the electrocardiograms, vital signs or laboratory measurements. CONCLUSIONS: There was no pharmacokinetic interaction between retigabine and phenobarbitone in healthy subjects. No dosage adjustment is likely to be necessary when retigabine and phenobarbitone are coadministered to patients.
AIMS: To evaluate potential pharmacokinetic interactions between phenobarbitone and retigabine, a new antiepileptic drug. METHODS: Fifteen healthy men received 200 mg of retigabine on day 1. On days 4-32, phenobarbitone 90 mg was administered at 22.00 h. On days 26-32, increasing doses of retigabine were given to achieve a final dose of 200 mg every 8 h on day 32. The pharmacokinetics of retigabine were determined on days 1 and 32, and those for phenobarbitone on days 25 and 31. RESULTS: After administration of a single 200 mg dose, retigabine was rapidly absorbed and eliminated with a mean terminal half-life of 6.7 h, a mean AUC of 3936 ng x ml(-1) x h and a mean apparent clearance of 0.76 l x h(-1) x kg(-1). Similar exposure to the partially active acetylated metabolite (AWD21-360) of retigabine was observed. After administration of phenobarbitone dosed to steady-state, the pharmacokinetics of retigabine at steady-state were similar (AUC of 4433 ng x ml(-1) x h and t1/2 of 8.5 h) to those of retigabine alone. The AUC of phenobarbitone was 298 mg x l(-1) x h when administered alone and 311 mg x ml(-1) x h after retigabine administration. The geometric mean ratios and 90% confidence intervals of the AUC were 1.11 (0.97, 1.28) for retigabine, 1.01 (0.88, 1.06) for AWD21-360 and 1.04 (0.96, 1.11) for phenobarbitone. Individual and combined treatments were generally well tolerated. One subject was withdrawn from the study on day 10 due to severe abdominal pain. Headache was the most commonly reported adverse event. No clinically relevant changes were observed in the electrocardiograms, vital signs or laboratory measurements. CONCLUSIONS: There was no pharmacokinetic interaction between retigabine and phenobarbitone in healthy subjects. No dosage adjustment is likely to be necessary when retigabine and phenobarbitone are coadministered to patients.
Authors: R Hempel; H Schupke; P J McNeilly; K Heinecke; C Kronbach; C Grunwald; G Zimmermann; C Griesinger; J Engel; T Kronbach Journal: Drug Metab Dispos Date: 1999-05 Impact factor: 3.922
Authors: P Reidenberg; P Glue; C R Banfield; R D Colucci; J W Meehan; E Radwanski; P Mojavarian; C C Lin; J Nezamis; M Guillaume Journal: Clin Pharmacol Ther Date: 1995-09 Impact factor: 6.875
Authors: A Rostock; C Tober; C Rundfeldt; R Bartsch; J Engel; E E Polymeropoulos; B Kutscher; W Löscher; D Hönack; H S White; H H Wolf Journal: Epilepsy Res Date: 1996-04 Impact factor: 3.045
Authors: Lena Rubi; Michael Kovar; Eva Zebedin-Brandl; Xaver Koenig; Manuel Dominguez-Rodriguez; Hannes Todt; Helmut Kubista; Stefan Boehm; Karlheinz Hilber Journal: Toxicol Appl Pharmacol Date: 2017-06-20 Impact factor: 4.219