Coupez René, Nicolas Jean-Marie, Browne Thomas R
UCB S.A. Pharma Sector, and the Brain Center, Brussels, Belgium.
Epilepsia. 2003 Feb;44(2):171-8. doi: 10.1046/j.1528-1157.2003.25302.x.
The novel antiepileptic drug (AED) levetiracetam (LEV; Keppra) has a wide therapeutic index and pharmacokinetic characteristics predicting limited drug-interaction potential. It is indicated as an add-on treatment in patients with epilepsy, and thus coadministration with valproic acid (VPA) is likely. These studies were performed to determine whether coadministration of LEV with VPA might result in pharmacokinetic interactions.
In vitro assays were performed to characterize the transformation of LEV into its main in vivo metabolite UCB L057. The reaction was examined for its sensitivity to clinically relevant concentrations of VPA. An open-label, one-way, one-sequence crossover clinical trial was conducted in 16 healthy volunteers to assess further the possibility of any relevant pharmacokinetic interaction.
Human whole blood and, to a lesser extent, human liver homogenates were demonstrated to hydrolyze LEV to UCB L057, its main metabolite. The reaction possibly involves type-B esterases and is not affected by 1 mM VPA (i.e., 166 microg/ml). Pharmacokinetic parameters of a single dose of LEV (1,500 mg) coadministered with steady-state concentrations of VPA (8 days of 500 mg, b.i.d.) did not differ significantly from the pharmacokinetics of LEV administered alone [area under the curve (AUC) of 397 and 400 microg/h/ml, respectively]. Furthermore, LEV did not affect the steady-state pharmacokinetics of VPA.
These findings suggest the absence of a pharmacokinetic interaction between VPA and LEV during short-term administration, and suggest that dose adjustment is not required when these two drugs are given together.
新型抗癫痫药物(AED)左乙拉西坦(LEV;开浦兰)具有较宽的治疗指数和药代动力学特征,提示其药物相互作用潜力有限。它被用作癫痫患者的附加治疗药物,因此可能会与丙戊酸(VPA)联合使用。进行这些研究以确定LEV与VPA联合使用是否会导致药代动力学相互作用。
进行体外试验以表征LEV向其主要体内代谢产物UCB L057的转化。研究该反应对临床相关浓度VPA的敏感性。在16名健康志愿者中进行了一项开放标签、单向、单序列交叉临床试验,以进一步评估任何相关药代动力学相互作用的可能性。
已证实在人全血中以及在较小程度上在人肝匀浆中LEV可水解为其主要代谢产物UCB L057。该反应可能涉及B型酯酶,且不受1 mM VPA(即166μg/ml)的影响。单剂量LEV(1500 mg)与稳态浓度的VPA(500 mg,每日两次,共8天)联合给药时的药代动力学参数与单独给予LEV时的药代动力学参数无显著差异[曲线下面积(AUC)分别为397和400μg/h/ml]。此外,LEV不影响VPA的稳态药代动力学。
这些发现表明在短期给药期间VPA与LEV之间不存在药代动力学相互作用,并表明这两种药物一起使用时无需调整剂量。
