Cheng C L, Smith D E, Carver P L, Cox S R, Watkins P B, Blake D S, Kauffman C A, Meyer K M, Amidon G L, Stetson P L
College of Pharmacy, Upjohn Center for Clinical Pharmacology, University of Michigan, Ann Arbor 48109-0504, USA.
Clin Pharmacol Ther. 1997 May;61(5):531-43. doi: 10.1016/S0009-9236(97)90133-8.
The steady-state kinetics of delavirdine and desisopropyldelavirdine were evaluated in human immunodeficiency virus-positive patients after escalating oral doses and after repeated oral administrations at the same dose level.
Patients (n = 8 males) were given escalating oral doses of delavirdine mesylate, in a sequential fashion, over 14 days for phases 1 (200 mg every 8 hours), 2 (300 mg every 8 hours), and 3 (400 mg every 8 hours). Control patients (n = 4 males) were given 300 mg oral doses of drug every 8 hours for all three phases. Hepatic CYP3A activity was evaluated with the erythromycin breath test (ERMBT).
In the escalating-dose group, delavirdine displayed nonlinear kinetics as indicated by the decreasing oral clearance, maximum steady-state plasma concentration/minimum steady-state plasma concentration ratio, and log-linear terminal rate constant, as well as by increasing half-life at higher doses; the ratio of desisopropyl-delavirdine formation clearance to elimination clearance was also reduced. In the control group, the kinetics of delavirdine and desisopropyl-delavirdine were unchanged. Plasma protein binding was linear for delavirdine in the escalating-dose and control groups; on average, the fraction unbound was about 2.3% and 2.0%, respectively. Hepatic CYP3A activity was markedly reduced after short- and long-term exposure to all doses of delavirdine mesylate. Delavirdine could maximally inhibit 70% to 75% of predose ERMBT values, with an IC50 of about 0.9 mumol/L.
Delavirdine is a potent and reversible inhibitor of hepatic CYP3A; it is also a substrate for this CYP450 isoform. It is likely that delavirdine will exhibit drug-drug interactions when coadministered with other CYP3A substrates.
在口服剂量递增后以及在相同剂量水平重复口服给药后,评估地拉韦啶和去异丙基地拉韦啶在人类免疫缺陷病毒阳性患者中的稳态动力学。
患者(8名男性)在14天内按顺序递增口服甲磺酸地拉韦啶剂量,分为1期(每8小时200毫克)、2期(每8小时300毫克)和3期(每8小时400毫克)。对照患者(4名男性)在所有三个阶段均每8小时口服300毫克药物。通过红霉素呼气试验(ERMBT)评估肝脏CYP3A活性。
在剂量递增组中,地拉韦啶表现出非线性动力学,表现为口服清除率降低、最大稳态血浆浓度/最小稳态血浆浓度比值以及对数线性末端速率常数降低,以及在较高剂量下半衰期延长;去异丙基地拉韦啶形成清除率与消除清除率的比值也降低。在对照组中,地拉韦啶和去异丙基地拉韦啶的动力学未发生变化。在剂量递增组和对照组中,地拉韦啶的血浆蛋白结合呈线性;平均而言,未结合分数分别约为2.3%和2.0%。短期和长期暴露于所有剂量的甲磺酸地拉韦啶后,肝脏CYP3A活性均显著降低。地拉韦啶可最大程度抑制给药前ERMBT值的70%至75%,IC50约为0.9μmol/L。
地拉韦啶是肝脏CYP3A的强效可逆抑制剂;它也是这种CYP450同工酶的底物。与其他CYP3A底物合用时,地拉韦啶可能会出现药物相互作用。
