Bethke T D, Lahu G
Medical Department, Nycomed GmbH, Konstanz, Germany.
Int J Clin Pharmacol Ther. 2011 Jan;49(1):51-7. doi: 10.5414/cpp49051.
To establish basic intravenous (IV) pharmacokinetics of roflumilast (ROF) and its pharmacologically active metabolite roflumilast N-oxide (R-NO) and to determine the absolute bioavailability of ROF in humans.
In a randomized, open-label, 2-period, 2-sequence crossover study 12 healthy male subjects were randomized to receive ROF either orally (PO) 500 µg (immediate release tablets) or single IV (150 µg over 15 min). Plasma concentrations were determined. Dose-adjusted point estimates and 90% confidence intervals (CI) were calculated for the ratio of the AUC time curves using a multiplicative model and parametric analysis.
After IV administration, clearance of ROF was 0.14 l/h/kg, volume of distribution (Vd area) 2.92 l/kg, and the terminal t1/2 was 14.8 h. After PO administration, ROF was rapidly absorbed; the absolute bioavailability was 79%. The AUC of the R-NO metabolite generally exceeded that of ROF. After IV and PO administration, the metabolic ratios were 7.4 and 12.4, respectively. Dose-adjusted analysis of the R-NO AUC values indicate a 21% higher R-NO formation seen with PO vs. IV, suggesting entire first-pass conversion of ROF is to the active R-NO. Formation/clearance processes of the R-NO appear to be slow with an observed tmax of 6.9 - 8.8 h, and corresponding to apparent t1/2 values of 22.7 h and 20.6 h, after IV and PO administration, respectively.
ROF is rapidly absorbed after PO administration and exhibits high absolute bioavailability and low clearance pharmacokinetics. The total exposure of R-NO exceeds that of ROF by a factor of 12 after oral administration.
建立罗氟司特(ROF)及其药理活性代谢产物罗氟司特N - 氧化物(R - NO)的基本静脉药代动力学,并确定ROF在人体中的绝对生物利用度。
在一项随机、开放标签、两周期、两序列交叉研究中,12名健康男性受试者被随机分配接受口服(PO)500μg(速释片)或单次静脉注射(150μg,持续15分钟)的ROF。测定血浆浓度。使用乘法模型和参数分析计算AUC时间曲线比值的剂量调整点估计值和90%置信区间(CI)。
静脉给药后,ROF的清除率为0.14 l/h/kg,分布容积(Vd面积)为2.92 l/kg,终末t1/2为14.8小时。口服给药后,ROF迅速吸收;绝对生物利用度为79%。R - NO代谢产物的AUC通常超过ROF的AUC。静脉和口服给药后,代谢比值分别为7.4和12.4。对R - NO AUC值进行剂量调整分析表明,口服给药时R - NO的生成比静脉给药时高21%,这表明ROF的首过转化完全生成活性R - NO。R - NO的生成/清除过程似乎较慢,静脉和口服给药后观察到的tmax分别为6.9 - 8.8小时,相应的表观t1/2值分别为22.7小时和20.6小时。
口服给药后ROF迅速吸收,具有高绝对生物利用度和低清除率的药代动力学特征。口服给药后,R - NO的总暴露量比ROF高12倍。
