Carr R A, Edmonds A, Shi H, Locke C S, Gustavson L E, Craft J C, Harris S I, Palmer R
Abbott Laboratories, Abbott Park, Illinois 60064-3500, USA.
Antimicrob Agents Chemother. 1998 May;42(5):1176-80. doi: 10.1128/AAC.42.5.1176.
To evaluate the potential for an interaction between clarithromycin and loratadine, healthy male volunteers (n = 24) received each of the following regimens according to a randomized crossover design: 500 mg of clarithromycin orally every 12 h (q12h) for 10 days, 10 mg of loratadine orally q24h for 10 days, and the combination of clarithromycin and loratadine. A washout interval of 14 days separated regimens. The addition of loratadine did not statistically significantly affect the steady-state pharmacokinetics of clarithromycin or its active metabolite, 14(R)-hydroxy-clarithromycin. However, the addition of clarithromycin statistically significantly altered the steady-state maximum observed plasma concentration and the area under the plasma concentration-time curve over a dosing interval for loratadine (+36 and +76%, respectively) and for descarboethoxyloratadine (DCL), the active metabolite of loratadine (+69 and +49%, respectively). Clarithromycin probably inhibits the oxidative metabolism of loratadine and DCL by the cytochrome P-450 3A subfamily. Electrocardiograms (n = 12) were obtained over 24-h periods at baseline and steady state (day 10). The mean maximum QTc interval and area under the QTc interval-time curve on day 10 were modestly increased (<3%) from baseline for all three regimens, but no QTc interval exceeded 439 ms for any subject. Elevated steady-state concentrations of loratadine and DCL do not appear to be associated with adverse cardiovascular effects related to prolongation of the QTc interval. Loratadine and clarithromycin were well tolerated, alone and in combination.
为评估克拉霉素与氯雷他定之间相互作用的可能性,健康男性志愿者(n = 24)按照随机交叉设计接受了以下每种给药方案:每12小时口服500 mg克拉霉素,共10天;每24小时口服10 mg氯雷他定,共10天;以及克拉霉素与氯雷他定联合用药。各给药方案之间间隔14天的洗脱期。添加氯雷他定对克拉霉素或其活性代谢物14(R)-羟基克拉霉素的稳态药代动力学没有统计学上的显著影响。然而,添加克拉霉素在统计学上显著改变了氯雷他定给药间隔内的稳态最大观察血浆浓度和血浆浓度-时间曲线下面积(分别增加36%和76%),以及氯雷他定的活性代谢物去乙氧羰基氯雷他定(DCL)的相应指标(分别增加69%和49%)。克拉霉素可能通过细胞色素P-450 3A亚家族抑制氯雷他定和DCL的氧化代谢。在基线和稳态(第10天)时,在24小时内获取了心电图(n = 12)。所有三种给药方案在第10天的平均最大QTc间期和QTc间期-时间曲线下面积较基线均有适度增加(<3%),但任何受试者的QTc间期均未超过439 ms。氯雷他定和DCL的稳态浓度升高似乎与QTc间期延长相关的不良心血管效应无关。氯雷他定和克拉霉素单独使用及联合使用时耐受性良好。