Zannikos Peter N, Smit Johan W, Stahlberg Hans-Jürgen, Wenge Birger, Hillewaert Vera M, Etropolski Mila S
Janssen Research & Development, LLC, New Jersey.
Janssen Research & Development, LLC, Beerse, Belgium.
J Opioid Manag. 2013 Jul-Aug;9(4):291-300. doi: 10.5055/jom.2013.0171.
To evaluate serum pharmacokinetics of tapentadol administered to healthy subjects as extended-release (ER) tablets.
Seven single-dose studies (five randomized, crossover, bioequivalence studies; a study in Japanese men; and a randomized, crossover, effects-of-food study) and one repeated-dose study.
Clinical research settings in the United States and The Netherlands.
Healthy males and females were enrolled into seven studies; one study enrolled only Japanese males.
In the bioequivalence studies, subjects first received one polyethylene oxide- or hypromellose-based tapentadol ER tablet (50, 100, 150, 200, or 250 mg; one dose per study), then (after washout) the other formulation (matching dose). In all other studies, subjects received polyethylene oxide-based tapentadol ER tablets. In the repeated-dose study, subjects received one 250 mg tablet, then (after washout) one 250 mg tablet every 12 hours (five doses). In the food-effect study, subjects received one 250 mg tablet within 30 minutes after a high-fat meal or after 10 hours of fasting. In the study in Japanese men, subjects received one 100 mg tablet.
Maximum tapentadol concentrations (Cmax) were typically observed 5 hours after dosing. Mean terminal half-life values ranged from 4.4 to 5.9 hours. Tapentadol Cmax and AUC values increased proportionally following single ER (polyethylene oxide-based tablets) doses of 50 to 250 mg. Trough tapentadol concentrations increased during repeat dosing until reaching steady-state by the third dose. Serum Cmax and area under the concentration-time curve (AUC) values at steady state were 1.6 and 1.9 times higher relative to single-dose administration. Coadministration of the 250 mg dose with a high-fat meal increased Cmax and AUC values by an average of < 17 percent.
The pharmacokinetics of tapentadol ER are consistent after repeated and single-dose administration. Tapentadol ER may be administered without regard to food intake. No clinically significant differences were observed in the pharmacokinetics of tapentadol between Japanese and Caucasian subjects.
评估健康受试者服用缓释(ER)片形式的曲马多的血清药代动力学。
七项单剂量研究(五项随机、交叉、生物等效性研究;一项针对日本男性的研究;以及一项随机、交叉、食物影响研究)和一项重复剂量研究。
美国和荷兰的临床研究机构。
健康男性和女性参与了七项研究;一项研究仅纳入了日本男性。
在生物等效性研究中,受试者首先服用一片基于聚环氧乙烷或羟丙甲纤维素的曲马多ER片(50、100、150、200或250毫克;每项研究一剂),然后(洗脱期后)服用另一种制剂(匹配剂量)。在所有其他研究中,受试者服用基于聚环氧乙烷的曲马多ER片。在重复剂量研究中,受试者服用一片250毫克片剂,然后(洗脱期后)每12小时服用一片250毫克片剂(共五剂)。在食物影响研究中,受试者在高脂餐后30分钟内或禁食10小时后服用一片250毫克片剂。在针对日本男性的研究中,受试者服用一片100毫克片剂。
给药后5小时通常观察到曲马多的最大浓度(Cmax)。平均终末半衰期值在4.4至5.9小时之间。单次ER(基于聚环氧乙烷的片剂)剂量为50至250毫克时,曲马多的Cmax和AUC值成比例增加。重复给药期间,曲马多的谷浓度增加,直至第三次给药达到稳态。稳态时的血清Cmax和浓度-时间曲线下面积(AUC)值相对于单剂量给药分别高出1.6倍和1.9倍。250毫克剂量与高脂餐同时服用使Cmax和AUC值平均增加<17%。
曲马多ER重复给药和单剂量给药后的药代动力学一致。曲马多ER给药无需考虑食物摄入情况。日本受试者和白种人受试者之间曲马多的药代动力学未观察到临床上的显著差异。
