透皮奥昔布宁的药代动力学与代谢：一种新型给药系统的体外和体内性能

Pharmacokinetics and metabolism of transdermal oxybutynin: in vitro and in vivo performance of a novel delivery system.

作者信息

Zobrist R Howard, Quan Danyi, Thomas Heather M, Stanworth Stephanie, Sanders Steven W

机构信息

Watson Laboratories, Inc., 417 Wakara Way, Salt Lake City, Utah 84108, USA.

出版信息

Pharm Res. 2003 Jan;20(1):103-9. doi: 10.1023/a:1022259011052.

DOI:10.1023/a:1022259011052

PMID:12608543

Abstract

PURPOSE

The purpose of this work was to characterize in vitro/in vivo delivery and pharmacokinetics of oxybutynin (OXY) and its active metabolite. N-desethyloxybutynin (DEO), by a novel matrix transdermal system (TDS).

METHODS

Two in vivo, randomized, three-way crossover trials examined single/multiple OXY TDS doses. Abdomen, buttock, and hip application sites were compared and dose proportionality was evaluated. Model independent pharmacokinetics, elimination rate constants, and metabolite/drug ratios were derived from both plasma OXY and DEO concentrations.

RESULTS

Single/multiple applications of the OXY TDS to the abdomen yielded mean Cmax OXY concentrations of 3.4 +/- 1.1/6.6 +/- 2.4 ng/mL and median tmax of 36/10 h, with steady state achieved during the second application. Plasma OXY and DEO concentrations decreased gradually after Cmax until system removal. Buttock and hip applications resulted in bioequivalent OXY absorption. AUC ratios of DEO/OXY were 1.5 +/- 0.4 (single dose) and 1.3 +/- 0.3 (multiple dose). Mean in vitro OXY skin absorption (186 microg/h) was comparable to the estimated in vivo delivery (163 microg/h) over 96 h.

CONCLUSIONS

Sustained delivery over 4 days and multiple sites allow a convenient, well-tolerated, twice-weekly OXY TDS dosing. A low incidence of anticholinergic side effects is expected during clinical use because of the avoidance of presystemic metabolism and low DEO plasma concentrations. The consistent delivery, absorption, and pharmacokinetics should result in an effective treatment of patients with overactive bladder.

摘要

目的

本研究旨在通过一种新型基质透皮给药系统（TDS）来表征奥昔布宁（OXY）及其活性代谢物N -去乙基奥昔布宁（DEO）的体外/体内递送及药代动力学特征。

方法

两项体内随机三交叉试验研究了单次/多次奥昔布宁TDS剂量。比较了腹部、臀部和髋部的给药部位，并评估了剂量比例关系。从血浆奥昔布宁和DEO浓度中得出非模型依赖的药代动力学、消除速率常数以及代谢物/药物比率。

结果

将奥昔布宁TDS单次/多次应用于腹部时，奥昔布宁的平均Cmax浓度为3.4±1.1/6.6±2.4 ng/mL，中位tmax为36/10小时，在第二次给药时达到稳态。Cmax后血浆奥昔布宁和DEO浓度逐渐下降直至系统移除。臀部和髋部给药导致奥昔布宁吸收具有生物等效性。DEO/OXY的AUC比率分别为1.5±0.4（单剂量）和1.3±0.3（多剂量）。奥昔布宁的平均体外皮肤吸收（186μg/h）与96小时内估计的体内递送量（163μg/h）相当。

结论

4天的持续递送和多部位给药使得奥昔布宁TDS能够方便地给药，耐受性良好，每周给药两次。由于避免了首过代谢且DEO血浆浓度较低，预计临床使用期间抗胆碱能副作用的发生率较低。持续一致的递送、吸收和药代动力学应能有效治疗膀胱过度活动症患者。

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透皮奥昔布宁的药代动力学与代谢：一种新型给药系统的体外和体内性能

Pharmacokinetics and metabolism of transdermal oxybutynin: in vitro and in vivo performance of a novel delivery system.

作者信息

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSIONS

目的

方法

结果

结论

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