健康受试者中帕罗西汀与罗红霉素对溴苯环已铵的药代动力学相互作用研究。
Study of pharmacokinetic interaction of paroxetine and roxithromycin on bencycloquidium bromide in healthy subjects.
作者信息
Agbokponto Janvier Engelbert, Luo Zhu, Liu Ruijuan, Liu Zhen, Liang Maozhi, Ding Li
机构信息
Department of Pharmaceutical Analysis, China Pharmaceutical University, 24 Tongjiaxiang, Nanjing 210009, China.
Department of Clinical Pharmacology, West China Hospital, Sichuan University, Chengdu 610041, China.
出版信息
Eur J Pharm Sci. 2015 Mar 10;69:37-43. doi: 10.1016/j.ejps.2014.12.019. Epub 2015 Jan 2.
PURPOSE
The aim of this study was to investigate the potential drug-drug interaction between Bencycloquidium bromide (BCQB) and paroxetine, and between BCQB and roxithromycin.
METHODS
Two studies were conducted on healthy male Chinese volunteers. Study A was an open-label, two-period, one-sequence crossover study (n=21). Each participant received a single nasal spray dose of BCQB 180μg on day 1. After a 7-day wash-out period, subjects received 20mg of paroxetine from day 8 to 17, and were co-administered 20mg of paroxetine and BCQB 180μg on day 18. In study B, participants (n=12) were randomly assigned to two groups. In period I, group A received BCQB 180μg on day 1, followed by the same dose four times daily from day 4 to 10, then, on day 11 a single dose of 150mg roxithromycin with BCQB 180μg were co-administered. In parallel, group B received a single dose of roxithromycin 150mg on day 1, followed by 300mg of roxithromycin from day 4 to 10, then, on day 11 a single dose of BCQB 180μg with roxithromycin 300mg were co-administered. After a wash-out time of 7days the respective treatments of each group (A and B) were swapped in period II. Blood samples were collected for pharmacokinetic analysis. Statistical comparison of pharmacokinetic parameters was performed to identify a possible drug interaction between treatments. Tolerability was evaluated by recording adverse events.
RESULTS
Study A: Geometric mean AUC0-36 for BCQB alone and co-administered with paroxetine were 474.3 and 631.3pgh/ml, respectively. The geometric mean ratio (GMR) of AUC0-36 was 1.33 (1.13-1.46), 90% C.Is, and was out the predefined bioequivalence interval (90% C.Is, 0.80-1.25). Geometric mean Cmax were 187.0 and 181.2pg/ml. Study B: The GMR of AUC0-36 was 0.98 (0.90-1.07), 90% C.Is for BCQB, and the GMR of AUC0-72 was 0.98 (0.87-1.11), 90% C.Is for roxithromycin. Both GMRs were within the predefined bioequivalence interval (90% C.Is, 0.80-1.25). Other pharmacokinetic parameters were within the predefined interval. No serious adverse events were reported and no significant clinical changes were observed in laboratory test results, vital signs and ECGs in any of the studies. All treatments were well tolerated.
CONCLUSION
The co-administration of BCQB with paroxetine showed a moderate increase in BCQB exposure, but was not clinically relevant. Also, no drug interaction was found between BCQB and roxithromycin.
目的
本研究旨在调查溴苯环己铵(BCQB)与帕罗西汀之间以及BCQB与罗红霉素之间潜在的药物相互作用。
方法
对健康中国男性志愿者进行了两项研究。研究A是一项开放标签、两期、单序列交叉研究(n = 21)。每位参与者在第1天接受单次鼻腔喷雾剂量的180μg BCQB。经过7天的洗脱期后,受试者从第8天至第17天接受20mg帕罗西汀,并在第18天同时给予20mg帕罗西汀和180μg BCQB。在研究B中,参与者(n = 12)被随机分为两组。在第一期,A组在第1天接受180μg BCQB,然后从第4天至第10天每天四次给予相同剂量,然后在第11天将150mg罗红霉素与180μg BCQB同时给予。同时,B组在第1天接受单次剂量的150mg罗红霉素,然后从第4天至第10天接受300mg罗红霉素,然后在第11天将180μg BCQB与300mg罗红霉素同时给予。经过7天的洗脱期后,在第二期将每组(A组和B组)的相应治疗进行交换。采集血样进行药代动力学分析。对药代动力学参数进行统计比较以确定治疗之间可能的药物相互作用。通过记录不良事件来评估耐受性。
结果
研究A:单独使用BCQB以及与帕罗西汀合用时的几何平均AUC0 - 36分别为474.3和631.3pgh/ml。AUC0 - 36的几何平均比值(GMR)为1.33(1.13 - 1.46),90%置信区间,超出了预先定义的生物等效性区间(90%置信区间,0.80 - 1.25)。几何平均Cmax分别为187.0和181.2pg/ml。研究B:BCQB的AUC0 - 36的GMR为0.98(0.90 - 1.07),90%置信区间,罗红霉素的AUC0 - 72的GMR为0.98(0.8
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