CYP2C19基因分型和口服避孕药的使用会影响卡立普多在健康人体受试者中的药代动力学。
The CYP2C19 genotype and the use of oral contraceptives influence the pharmacokinetics of carisoprodol in healthy human subjects.
作者信息
Bramness Jørgen G, Skurtveit Svetlana, Gulliksen Margaretha, Breilid Harald, Steen Vidar M, Mørland Jørg
机构信息
Norwegian Institute of Public Health, Division of Forensic Toxicology and Drug Abuse, P.O. Box 4404, Nydalen, 0403, Oslo, Norway.
出版信息
Eur J Clin Pharmacol. 2005 Aug;61(7):499-506. doi: 10.1007/s00228-005-0970-1. Epub 2005 Jul 15.
AIMS
The aim of the present study was to investigate if subjects with one normal and one non-functional CYP2C19 allele (intermediate metabolizers; IMs) metabolized carisoprodol differently than individuals with two normal CYP2C19 alleles (extensive metabolizers; EMs) We also wanted to investigate whether the use of oral contraceptives influences the metabolism of carisoprodol in EMs and IMs. Impairing effects on psychomotor coordination and feelings of sedation were studied by comparing IMs with EMs following their ingestion of a single dose of 700 mg carisoprodol.
METHODS
Thirty-seven healthy Caucasian volunteers participated in the study, of whom 25 were not using any drugs known to interact with CYP2C19, including two poor metabolizers (PMs) (CYP2C19 *2/*2 or CYP2C19 *2 /*4), 11 IMs (CYP2C19 *1/*2 or CYP2C19 *1/*4) and 12 EMs (CYP2C19 *1/*1); the remaining 12 participants were six EMs and six IMs using oral contraceptives. A single oral dose of 700 mg of carisoprodol was given, and blood drug concentrations were followed for 11 h and 45 min. During this time period, different pharmacodynamic measurements were made.
RESULTS
IMs had a longer elimination half life (T(1/2)) (127 min; 95% confidence interval (CI) 95, 159) than EMs (96 min; 95% CI 84, 107) and a larger area under the concentration-time curve from 0 to infinity (AUC(0-infinity)) for carisoprodol (16.3 microg h ml(-1) ; 95% CI 11.9, 20.7) than EMs (11.3 microg h ml(-1) ; 95% CI 7.8, 14.8). The use of oral contraceptives was accompanied by larger AUC(0-infinity) for carisoprodol in both EMs (18.5 microg h ml(-1); 95% CI 10.7, 26.3) and IMs (26.0 microg h ml(-1) ; 95% CI 18.8, 33.2). EMs using oral contraceptives also had a longer T(1/2) (117 min; 95% CI 92, 143) and higher maximum carisoprodol concentration than EMs not using oral contraceptives. No significant differences in pharmacodynamic parameters were found between subjects in the different genotype groups or between users and non-users of oral contraceptives.
CONCLUSIONS
Subsequent to a single-dose administration of carisoprodol, the carisoprodol AUC was approximately 45% larger in CYP2C19 IMs than in EMs. The use of oral contraceptives increased the AUC by approximately 60% in both EMs and IMs. Despite these pharmacokinetic effects, no significant differences with respect to the CYP2C19 IM and EM genotypes were observed in the acute impairing effects of a single dose of carisoprodol.
目的
本研究旨在调查携带一个正常和一个无功能CYP2C19等位基因的受试者(中间代谢者;IMs)与携带两个正常CYP2C19等位基因的个体(广泛代谢者;EMs)相比,对卡立普多的代谢是否存在差异。我们还想研究口服避孕药的使用是否会影响EMs和IMs中卡立普多的代谢。通过比较IMs和EMs单次服用700 mg卡立普多后的情况,研究其对精神运动协调和镇静感的损害作用。
方法
37名健康的白种人志愿者参与了本研究,其中25人未使用任何已知与CYP2C19相互作用的药物,包括2名慢代谢者(PMs)(CYP2C19 *2/*2或CYP2C19 *2 /*4)、11名IMs(CYP2C19 *1/*2或CYP2C19 *1/*4)和12名EMs(CYP2C19 *1/*1);其余12名参与者为6名使用口服避孕药的EMs和6名使用口服避孕药的IMs。单次口服700 mg卡立普多,并监测血药浓度11小时45分钟。在此期间,进行了不同的药效学测量。
结果
IMs的消除半衰期(T(1/2))(127分钟;95%置信区间(CI)95, 159)比EMs(96分钟;95% CI 84, 107)长,卡立普多从0到无穷大的浓度-时间曲线下面积(AUC(0-无穷大))(16.3 μg h ml(-1);95% CI 11.9, 20.7)比EMs(11.3 μg h ml(-1);95% CI 7.8, 14.8)大。口服避孕药的使用使EMs(18.5 μg h ml(-1);95% CI 10.7, 26.3)和IMs(26.0 μg h ml(-1);95% CI 18.8, 33.2)中卡立普多的AUC(0-无穷大)更大。使用口服避孕药的EMs的T(1/2)也更长(117分钟;95% CI 92, 143),卡立普多的最大浓度也高于未使用口服避孕药的EMs。不同基因型组的受试者之间或口服避孕药使用者与非使用者之间在药效学参数上未发现显著差异。
结论
单次服用卡立普多后,CYP2C19 IMs中卡立普多的AUC比EMs大约大45%。口服避孕药的使用使EMs和IMs中的AUC均增加了约60%。尽管有这些药代动力学效应,但在单次服用卡立普多的急性损害作用方面,未观察到CYP2C19 IM和EM基因型之间的显著差异。
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