Lauring Brett, Dishy Victor, De Kam Pieter-Jan, Crumley Tami, Wenning Larissa, Liu Fang, Sisk Christine, Wagner John, Lai Eseng
1Merck & Co., Inc., Whitehouse Station, NJ; 2MSD International GmbH (Singapore Branch); and 3Department of Applied and Computational Mathematics and Statistics, University of Notre Dame, Notre Dame, IN.
Am J Ther. 2015 Sep-Oct;22(5):367-76. doi: 10.1097/MJT.0000000000000051.
The use of multiple lipid-modifying agents with different mechanisms of action is often required to regulate lipid levels in patients with dyslipidemia. During combination therapy, alterations in the pharmacokinetics of any of the drugs used and their metabolites may occur. Three separate open-label, randomized, crossover studies evaluated the potential for pharmacokinetic interaction between extended-release niacin (with and without concomitant laropiprant) and simvastatin in healthy subjects. Study 1 used single doses of extended-release niacin and simvastatin; study 2 used multiple-dose coadministration of extended-release niacin/laropiprant and simvastatin in healthy subjects; and study 3 used single doses of both extended-release niacin and the coadministration of extended-release niacin/laropiprant and simvastatin in healthy Chinese subjects. During each treatment period, plasma samples were collected predose and at prespecified postdose time points for pharmacokinetic analyses. The safety and tolerability of simvastatin with and without coadministered extended-release niacin (or extended-release niacin/laropiprant) were assessed by clinical evaluation of adverse experiences. In 2 studies in healthy subjects, modest increases in exposure to simvastatin acid (by ∼60%) by extended-release niacin and extended-release niacin/laropiprant were observed. Based on the clinical experience with simvastatin, these effects are not believed to be clinically meaningful. In the third study on healthy Chinese subjects, no statistically meaningful increases in exposure to simvastatin by extended-release niacin and extended-release niacin/laropiprant were observed. In all populations examined in these studies, the coadministration of extended-release niacin and simvastatin was generally well tolerated.
血脂异常患者通常需要联合使用多种作用机制不同的调脂药物来调节血脂水平。在联合治疗期间,所用任何药物及其代谢产物的药代动力学可能会发生改变。三项独立的开放标签、随机、交叉研究评估了缓释烟酸(含或不含拉罗匹仑)与辛伐他汀在健康受试者中发生药代动力学相互作用的可能性。研究1使用了单剂量的缓释烟酸和辛伐他汀;研究2在健康受试者中使用了缓释烟酸/拉罗匹仑与辛伐他汀的多剂量联合给药;研究3在健康中国受试者中使用了单剂量的缓释烟酸以及缓释烟酸/拉罗匹仑与辛伐他汀的联合给药。在每个治疗期间,于给药前和指定的给药后时间点采集血浆样本进行药代动力学分析。通过对不良事件的临床评估来评估辛伐他汀与联用或未联用缓释烟酸(或缓释烟酸/拉罗匹仑)时的安全性和耐受性。在两项针对健康受试者的研究中,观察到缓释烟酸和缓释烟酸/拉罗匹仑使辛伐他汀酸的暴露量适度增加(约60%)。基于辛伐他汀的临床经验,认为这些影响在临床上无意义。在第三项针对健康中国受试者的研究中,未观察到缓释烟酸和缓释烟酸/拉罗匹仑使辛伐他汀的暴露量有统计学意义的增加。在这些研究中所考察的所有人群中,缓释烟酸与辛伐他汀的联合给药总体耐受性良好。