大环内酯类抗菌药物对三唑仑清除率的抑制作用：体外相关性及动态影响。

Inhibition of triazolam clearance by macrolide antimicrobial agents: in vitro correlates and dynamic consequences.

作者信息

Greenblatt D J, von Moltke L L, Harmatz J S, Counihan M, Graf J A, Durol A L, Mertzanis P, Duan S X, Wright C E, Shader R I

机构信息

Department of Pharmacology and Experimental Therapeutics, Tufts University School of Medicine, Boston, MA 02111, USA.

出版信息

Clin Pharmacol Ther. 1998 Sep;64(3):278-85. doi: 10.1016/S0009-9236(98)90176-X.

DOI:10.1016/S0009-9236(98)90176-X

PMID:9757151

Abstract

BACKGROUND

Macrolide antimicrobial agents may impair hepatic clearance of drugs metabolized by cytochrome P4503A isoforms. Potential interactions of triazolam, a substrate metabolized almost entirely by cytochrome P4503A in humans, with 3 commonly prescribed macrolides were identified using an in vitro metabolic model. The actual interactions, and their pharmacodynamic consequences, were verified in a controlled clinical study.

METHODS

In an in vitro model using human liver microsomes, 250 mumol/L triazolam was incubated with ascending concentrations (0 to 250 mumol/L of troleandomycin, azithromycin, erythromycin, and clarithromycin. In a randomized, double-blind, 5-trial clinical pharmacokinetic-pharmacodynamic study, 12 volunteers received 0.125 mg triazolam orally, together with placebo, azithromycin, erythromycin, or clarithromycin. In a fifth trial they received placebo plus placebo.

RESULTS

Mean 50% inhibitory concentrations versus 4-hydroxytriazolam formation in vitro were as follows: 3.3 mumol/L troleandomycin, 27.3 mumol/L erythromycin, 25.2 mumol/L clarithromycin, and greater than 250 mumol/L azithromycin. Apparent oral clearance of triazolam when given with placebo or azithromycin was nearly identical (413 and 416 mL/min), as were peak plasma concentrations (1.25 and 1.32 ng/mL) and elimination half-life (2.7 and 2.6 hours). Apparent oral clearance was significantly reduced (P < .05) during erythromycin and clarithromycin trials (146 and 95 mL/min). Peak plasma concentration was correspondingly increased, and elimination half-life was prolonged. The effects of triazolam on dynamic measures were nearly identical when triazolam was given with placebo or azithromycin, but benzodiazepine agonist effects were enhanced during erythromycin and clarithromycin trials.

CONCLUSION

The in vitro model identifies macrolides that may impair triazolam clearance. Anticipated interactions, and their pharmacodynamic consequences in volunteer subjects, were verified in vivo.

摘要

背景

大环内酯类抗菌药物可能会损害由细胞色素P4503A亚型代谢的药物的肝脏清除率。使用体外代谢模型确定了三唑仑（一种在人体内几乎完全由细胞色素P4503A代谢的底物）与3种常用大环内酯类药物之间的潜在相互作用。在一项对照临床研究中验证了实际的相互作用及其药效学后果。

方法

在使用人肝微粒体的体外模型中，将250μmol/L的三唑仑与浓度递增的醋竹桃霉素、阿奇霉素、红霉素和克拉霉素（0至250μmol/L）一起孵育。在一项随机、双盲、5次试验的临床药代动力学-药效学研究中，12名志愿者口服0.125mg三唑仑，同时服用安慰剂、阿奇霉素、红霉素或克拉霉素。在第5次试验中，他们服用安慰剂加安慰剂。

结果

体外对4-羟基三唑仑形成的平均50%抑制浓度如下：醋竹桃霉素3.3μmol/L、红霉素27.3μmol/L、克拉霉素25.2μmol/L、阿奇霉素大于250μmol/L。与安慰剂或阿奇霉素合用时，三唑仑的表观口服清除率几乎相同（分别为413和416mL/min），血浆峰浓度（分别为1.25和1.32ng/mL）和消除半衰期（分别为2.7和2.6小时）也相同。在红霉素和克拉霉素试验期间，表观口服清除率显著降低（P<.05）（分别为146和95mL/min）。血浆峰浓度相应升高，消除半衰期延长。当三唑仑与安慰剂或阿奇霉素合用时，三唑仑对动态指标的影响几乎相同，但在红霉素和克拉霉素试验期间，苯二氮䓬激动剂效应增强。