体外动力学模型中大肠杆菌对环丙沙星耐药性的选择：药物暴露与突变预防浓度之间的关系

Selection of ciprofloxacin resistance in Escherichia coli in an in vitro kinetic model: relation between drug exposure and mutant prevention concentration.

作者信息

Olofsson Sara K, Marcusson Linda L, Komp Lindgren Patricia, Hughes Diarmaid, Cars Otto

机构信息

Antibiotic Research Unit, Department of Medical Sciences, Clinical Bacteriology and Infectious Diseases, Uppsala University, S-751 22 Uppsala, Sweden.

出版信息

J Antimicrob Chemother. 2006 Jun;57(6):1116-21. doi: 10.1093/jac/dkl135. Epub 2006 Apr 19.

DOI:10.1093/jac/dkl135

PMID:16624874

Abstract

OBJECTIVES

To evaluate the mutant prevention concentrations (MPCs) of ciprofloxacin for two susceptible and one first-step gyrA resistant mutant Escherichia coli strains in an in vitro kinetic model and to identify the pharmacodynamic index that best predicts prevention of resistance emergence.

METHODS

An in vitro kinetic model was used to measure MPC with static antibiotic concentrations and to test different dosing profiles to study pharmacokinetics/pharmacodynamics indices important to prevent the growth of resistant mutants. In one set of kinetic experiments the starting concentration was equal to the MPC and the T > MPC was varied before antibiotic dilution was begun. In a second set of kinetic experiments C(max) was varied and dilution of the antibiotic was started at time zero.

RESULTS

From the static experiments we calculated MPC values of 0.128 mg/L for both the susceptible strains (16x MIC) and 0.188 mg/L (4x MIC) for the first-step resistant (gyrA) strain. The kinetic experiments showed that the T > MPC needed to prevent the growth of resistant bacteria was shorter with an increased C(max). When resistance was selected, several subpopulations with different levels of susceptibility to ciprofloxacin emerged.

CONCLUSIONS

Neither T > MPC nor C(max) proved to be single correlates for preventing resistance development. For the two investigated wild-type strains, an AUC/MPC ratio of > or =22 was the single pharmacodynamic index that predicted prevention of resistant mutant development.

摘要

目的

在体外动力学模型中评估环丙沙星对两株敏感及一株第一步gyrA耐药突变型大肠杆菌菌株的突变预防浓度（MPC），并确定最能预测预防耐药性产生的药效学指标。

方法

采用体外动力学模型，通过静态抗生素浓度测量MPC，并测试不同给药方案，以研究对预防耐药突变体生长重要的药代动力学/药效学指标。在一组动力学实验中，起始浓度等于MPC，在开始抗生素稀释前改变T＞MPC。在第二组动力学实验中，改变C(max)，并在时间零点开始抗生素稀释。

结果

通过静态实验，我们计算出敏感菌株的MPC值为0.128mg/L（16倍MIC），第一步耐药（gyrA）菌株的MPC值为0.188mg/L（4倍MIC）。动力学实验表明，随着C(max)增加，预防耐药菌生长所需的T＞MPC缩短。当选择耐药性时，出现了几个对环丙沙星敏感性不同的亚群。

结论

T＞MPC和C(max)均未被证明是预防耐药性发展的单一相关因素。对于所研究的两株野生型菌株，AUC/MPC比值≥22是预测预防耐药突变体发展的单一药效学指标。

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体外动力学模型中大肠杆菌对环丙沙星耐药性的选择：药物暴露与突变预防浓度之间的关系

Selection of ciprofloxacin resistance in Escherichia coli in an in vitro kinetic model: relation between drug exposure and mutant prevention concentration.

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机构信息

出版信息

OBJECTIVES

METHODS

RESULTS

CONCLUSIONS

目的

方法

结果

结论

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