ABSTRACT
Oxcarbazepine (OXC) is a common antiepileptic drugs. In this study, one hundred and eighty four epilepsy patients with 196 observations of oxcarbazepine's active metabolite, 10,11-dihydro-10-monohydroxy carbazepine (MHD) were collected prospectively from routine clinical monitoring. Nonlinear mixed effect modeling was employed to develop a population pharmacokinetic model of oxcarbazepine in Chinese patients with epilepsy to investigate the impact of gender, age, weight, co-medications and genetic polymorphisms of UGT2B7 c.802T>C, ABCC2 c.1249G>A, ABCC 23972C>T on pharmacokinetic characteristics of OXC. The population estimate of apparent clearance (CL/F) and apparent volume of distribution (V/F) was 1.84 L·h−1 and 275 L, respectively. Gender and UGT2B7 c.802T>C affected the clearance rate of MHD significantly. The established model was:CL/F=1.84×0.848UGT2B7×1.17GENDER. Where the genotype of UGT2B7 c.802T>C was CC, UGT2B7=0, otherwise UGT2B7=1. When the patient was male, GENDER=1, otherwise GENDER=0. The final model was evaluated by normalized predictive distribution error (NPDE) and bootstrap method. The model was stable and reliable, which offers a powerful approach for rational use of OXC in epilepsy patients.
ABSTRACT
Objective To investigate the relationship between serum 10-hydroxycarbazepine (MHD, the main active metabolite of oxcarbazepine) concentration and oxcarbazepine efficacy and safety, and to optimize rational use of oxcarbazepine. Methods A total of 553 patients were enrolled in a self-controlled and open-label trial to assess the efficacy and safety of oxcarbazepine as monotherapy. The steady state serum MHD trough concentrations after dose were determined by SPE-HPLC. The relationship between MHD level and efficacy were evaluated by logistic regression model and receiver operating characteristic (ROC) curve. Results A total of 498 patients (90.1%) were effective and 404 patients (73.1%) were seizure free after oxcarbazepine monotherapy in this study. The clinical therapeutic range of steady state serum MHD trough concentrations observed in this study was 5 - 20 mg ? L-1 , and the corresponding 95% distribution interval of oxcarbazepine daily dose was 9. 0 -34.5 mg?kg-1?d-1 . Logistic regression results indicated a positive correlation of antiepileptic efficacy with serum MHD trough concentration within 0.9-30.0 mg?L-1 . The ROC area (95% confidence interval) of MHD trough concentration as the predictor for efficacy was 0.964 (0.938- 0.990), which showed accurate predictions. Most of patients whould have good antiepileptic efficacy while the steady-state serum MHD trough concentration remains above 8 mg?L-1 . Adverse effects were observed in 104 patients (18.8%) during oxcarbazepine dose escalation phase, and 23 patients (4.2%) during maintenance phase. There were no severe adverse effects associated with oxcarbazepine in this study. Patients with serum MHD concentrations >20 mg?L-1 were at greater risk of developing adverse effects. Conclusion Oxcarbazepine therapeutic efficacy and safety are associated with MHD trough level closely, so it is necessary to monitor MHD concentration.