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在亚胺培南-雷巴他定存在的情况下,用于描述细菌杀灭的转化药代动力学/药效学模型。

A translational pharmacokinetic/pharmacodynamic model to characterize bacterial kill in the presence of imipenem-relebactam.

机构信息

Sanofi US, 55 Corporate Drive, Bridgewater, NJ, 08807, USA.

Merck & Co., Inc., 2000 Galloping Hill Rd., Kenilworth, NJ, 07033, USA.

出版信息

Int J Infect Dis. 2019 Dec;89:55-61. doi: 10.1016/j.ijid.2019.08.026. Epub 2019 Aug 31.

DOI:10.1016/j.ijid.2019.08.026
PMID:31479762
Abstract

OBJECTIVES

Relebactam is a small molecule β-lactamase inhibitor under clinical investigation for use as a fixed-dose combination with imipenem/cilastatin. Here we present a translational pharmacokinetic/pharmacodynamic mathematical model to support optimal dose selection of relebactam.

METHODS

Data derived from in vitro checkerboard and hollow fiber infection studies of imipenem-resistant strains of Pseudomonas aeruginosa were incorporated into the model. The model integrates the effect of relebactam concentration on imipenem susceptibility in a semi-mechanistic manner using the checkerboard data and characterizes the bacterial time-kill profiles from the hollow fiber infection model data.

RESULTS

Simulations demonstrated that the ratio of the area under the concentration-time curve for free drug to the minimum inhibitory concentration (fAUC/MIC) was the pharmacokinetic driver for relebactam, with a target fAUC/MIC=7.5 associated with 2-log kill. At a clinical dose of 250mg relebactam, greater than 2-log reductions in bacterial load are projected for imipenem-resistant strains with an imipenem/relebactam MIC≤4μg/mL.

CONCLUSIONS

The study confirms that the pharmacokinetic/pharmacodynamic driver for relebactam is fAUC/MIC, that an fAUC/MIC ratio of 7.5 is associated with 2-log kill in vitro, and that a 250mg clinical dose of relebactam achieves this target value when delivered in combination with imipenem/cilastatin.

摘要

目的

雷利巴坦是一种处于临床研究阶段的小分子β-内酰胺酶抑制剂,与亚胺培南/西司他丁联合使用。本研究建立了一个转化药代动力学/药效学的数学模型,以支持雷利巴坦的最佳剂量选择。

方法

将来源于对耐亚胺培南铜绿假单胞菌的体外棋盘微量稀释法和中空纤维感染模型研究的数据整合到模型中。该模型以半机理的方式整合了雷利巴坦浓度对亚胺培南敏感性的影响(基于棋盘数据),并对来自中空纤维感染模型数据的细菌时间-杀菌曲线特征进行了描述。

结果

模拟结果表明,游离药物浓度-时间曲线下面积与最低抑菌浓度(fAUC/MIC)的比值是雷利巴坦的药代动力学驱动因素,目标 fAUC/MIC=7.5 与 2 对数杀灭相关。在 250mg 雷利巴坦的临床剂量下,对于亚胺培南/雷利巴坦 MIC≤4μg/mL 的耐亚胺培南菌株,预计细菌载量会有超过 2 对数的减少。

结论

该研究证实了雷利巴坦的药代动力学/药效学驱动因素是 fAUC/MIC,体外 7.5 的 fAUC/MIC 比值与 2 对数杀灭相关,当与亚胺培南/西司他丁联合使用时,250mg 的临床剂量雷利巴坦可达到这一目标值。

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