Macias W L, Bergstrom R F, Cerimele B J, Kassahun K, Tatum D E, Callaghan J T
Eli Lilly and Company, Lilly Research Laboratories, and Lilly Laboratory for Clinical Research, Indianapolis, Indiana 46202, USA.
Pharmacotherapy. 1998 Nov-Dec;18(6):1237-48.
To test whether olanzapine, an atypical antipsychotic, is an inhibitor of cytochrome P450 (CYP) 1A2 activity, we conducted a drug interaction study with theophylline, a known CYP1A2 substrate.
Two-way, randomized, crossover study.
Clinical research laboratory.
Nineteen healthy males (16 smokers, 3 nonsmokers).
Because the a priori expectation was no effect of olanzapine on theophylline pharmacokinetics, a parallel study using cimetidine was included as a positive control. In group 1, 12 healthy subjects received a 30-minute intravenous infusion of aminophylline 350 mg after 9 consecutive days of either olanzapine or placebo. In group 2, seven healthy subjects received a similar aminophylline infusion after 9 consecutive days of either cimetidine or placebo.
Concentrations of theophylline and its metabolites in serum and urine were measured for 24 and 72 hours, respectively. Plasma concentrations of olanzapine and its metabolites were measured for 24 hours after the next to last dose and 168 hours after the last olanzapine dose. Olanzapine did not affect theophylline pharmacokinetics. However, cimetidine significantly decreased theophylline clearance and the corresponding formation of its metabolites. Urinary excretion of theophylline and its metabolites was unaffected by olanzapine but was reduced significantly by cimetidine. Steady-state concentrations of olanzapine (15.3 ng/ml), 10-N-glucuronide (4.9 ng/ml), and 4'-N-desmethyl olanzapine (2.5 ng/ml) were observed after olanzapine 10 mg once/day and were unaffected by coadministration of theophylline.
As predicted by in vitro studies, steady-state concentrations of olanzapine and its metabolites did not affect theophylline pharmacokinetics and should not affect the pharmacokinetics of other agents metabolized by the CYP1A2 isozyme.
为了测试非典型抗精神病药物奥氮平是否为细胞色素P450(CYP)1A2活性的抑制剂,我们与已知的CYP1A2底物茶碱进行了一项药物相互作用研究。
双向、随机、交叉研究。
临床研究实验室。
19名健康男性(16名吸烟者,3名不吸烟者)。
由于预先预期奥氮平对茶碱的药代动力学无影响,因此纳入一项使用西咪替丁的平行研究作为阳性对照。在第1组中,12名健康受试者在连续9天服用奥氮平或安慰剂后,接受350mg氨茶碱30分钟的静脉输注。在第2组中,7名健康受试者在连续9天服用西咪替丁或安慰剂后,接受类似的氨茶碱输注。
分别在24小时和72小时测量血清和尿液中茶碱及其代谢物的浓度。在倒数第二剂后24小时和最后一剂奥氮平后168小时测量奥氮平及其代谢物的血浆浓度。奥氮平不影响茶碱的药代动力学。然而,西咪替丁显著降低了茶碱的清除率及其代谢物的相应生成。奥氮平不影响茶碱及其代谢物的尿排泄,但西咪替丁使其显著减少。每日一次服用10mg奥氮平后,观察到奥氮平(15.3ng/ml)、10-N-葡萄糖醛酸苷(4.9ng/ml)和4'-N-去甲基奥氮平(2.5ng/ml)的稳态浓度,且不受茶碱合用的影响。
正如体外研究所预测的,奥氮平及其代谢物的稳态浓度不影响茶碱的药代动力学,也不应影响由CYP1A2同工酶代谢的其他药物的药代动力学。
