Keung A, Reith K, Eller M G, McKenzie K A, Cheng L, Weir S J
Drug Metabolism/Pharmacokinetics Department, Schering Plough Research Institute, Kenilworth, New Jersey 07033-0539, USA.
Int J Tuberc Lung Dis. 1999 May;3(5):426-36.
To determine the effects of rifapentine on hepatic mixed function oxidase activity and to assess the effect of enzyme induction on the steady-state pharmacokinetics of rifapentine.
Twenty-three healthy males were randomized to receive two of the following treatments in a two-period, four-treatment, incomplete block, crossover design: single daily oral rifapentine doses of 150 mg (group A), 300 mg (group B), or 600 mg (group C) on study days 1 and 4-10, or single oral rifapentine 600 mg doses given every 3 days for a total of four doses (group D). Serial blood samples were collected after the first and last rifapentine dose and assayed for rifapentine and its active metabolite, 25-desacetyl-rifapentine. Urine was collected for determination of cortisol and 6-hydroxycortisol concentrations.
The ratio of 6beta-hydroxycortisol:cortisol increased during rifapentine administration (+229%, +317%, and +357% on day 10 for groups A, B, and C, respectively). Ratios returned to baseline 2 weeks after the last dose. The per cent increase in the ratio of 6beta-hydroxycortisol:cortisol following daily doses (+357%) was much higher compared with every 72-hour dosing (+236%). Single-dose and steady-state comparisons of AUCss(0-24) and AUC(0-->infinity) for both rifapentine and 25-desacetyl-rifapentine were similar (P = NS) at corresponding doses of rifapentine. Mean t(1/2) at steady-state was 84-98% of corresponding single-dose values.
Rifapentine is a potent inducer of CYP3A activity. However, single-dose pharmacokinetics of rifapentine predict steady-state exposure, indicating no autoinduction of rifapentine metabolism with repeated administration. Enzyme activity returns to predose levels within 2 weeks of the last daily dose of rifapentine.
确定利福喷汀对肝脏混合功能氧化酶活性的影响,并评估酶诱导对利福喷汀稳态药代动力学的作用。
23名健康男性按两期、四种治疗、不完全区组、交叉设计随机接受以下两种治疗:在研究第1天及4 - 10天,每日口服利福喷汀单剂量150mg(A组)、300mg(B组)或600mg(C组),或每3天口服利福喷汀600mg共四剂(D组)。在首次和末次利福喷汀给药后采集系列血样,测定利福喷汀及其活性代谢物25 - 去乙酰利福喷汀。收集尿液以测定皮质醇和6 - 羟基皮质醇浓度。
利福喷汀给药期间,6β - 羟基皮质醇:皮质醇的比值升高(A组、B组和C组在第10天分别升高229%、317%和357%)。末次给药后2周,比值恢复至基线水平。每日给药后6β - 羟基皮质醇:皮质醇比值的升高百分比(357%)比每72小时给药(236%)高得多。在相应利福喷汀剂量下,利福喷汀和25 - 去乙酰利福喷汀的AUCss(0 - 24)和AUC(0→∞)的单剂量与稳态比较相似(P = 无显著性差异)。稳态时的平均t(1/2)为相应单剂量值的84 - 98%。
利福喷汀是CYP3A活性的强效诱导剂。然而,利福喷汀的单剂量药代动力学可预测稳态暴露,表明重复给药不会自身诱导利福喷汀代谢。末次每日剂量利福喷汀给药后2周内,酶活性恢复至给药前水平。