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自动化纸片扩散抗生素药敏试验可在 6-8 小时内快速检测 ESBL、碳青霉烯酶、MRSA 和其他重要耐药表型。

Rapid detection of ESBL, carbapenemases, MRSA and other important resistance phenotypes within 6-8 h by automated disc diffusion antibiotic susceptibility testing.

机构信息

Institut für Medizinische Mikrobiologie, Universität Zürich, 8006 Zürich, Schweiz.

出版信息

J Antimicrob Chemother. 2017 Nov 1;72(11):3063-3069. doi: 10.1093/jac/dkx256.

DOI:10.1093/jac/dkx256
PMID:28962001
Abstract

BACKGROUND

In principle, automated systems allow rapid reading of disc diffusion AST (rAST) within 6-8 h.

OBJECTIVES

This study analysed whether rAST can discriminate resistance phenotypes such as ESBL, carbapenemases and MRSA/methicillin-resistant Staphylococcus epidermidis from WT populations. We describe species-drug combinations that may require clinical breakpoint adaptions for early reading due to zone diameter changes during the incubation period.

METHODS

In total, 1852 clinical strains [Escherichia coli (n = 475), Klebsiella pneumoniae (n = 375), Enterobacter cloacae (n = 301), Staphylococcus aureus (n = 407) and S. epidermidis (n = 294)] were included in this study comprising WT populations and important resistance phenotypes, e.g. ESBL, carbapenemases and MRSA. We assessed (i) separation of resistance phenotypes and WT populations after 6, 8 and 12 h as compared with the 18 h standard, and (ii) diameter changes of WT populations and associated putative epidemiological cut-offs during the incubation period. Disc diffusion plates were automatically streaked, incubated and imaged using the WASPLabTM system.

RESULTS AND CONCLUSIONS

We demonstrated that important resistance phenotypes could reliably be separated from WT populations at early reading times for the most prevalent bacterial pathogens encountered in the clinical laboratory. Current AST expert rules and algorithms for identification of resistance mechanisms can readily be applied for rAST, e.g. EUCAST recommended rules for detection of ESBL, AmpC, carbapenemases and MRSA/methicillin-resistant S. epidermidis. However, several species-drug combinations may require clinical breakpoint adaptations when using rAST as the diameter, and hence the epidemiological cut-off, changes during the incubation period.

摘要

背景

原则上,自动化系统可在 6-8 小时内快速读取纸片扩散 AST(rAST)。

目的

本研究分析了 rAST 是否能够区分 ESBL、碳青霉烯酶和 MRSA/耐甲氧西林表皮葡萄球菌等耐药表型与 WT 人群。我们描述了一些物种-药物组合,由于在孵育期间的抑菌环直径变化,可能需要对临床折点进行适应性调整以进行早期读取。

方法

本研究共纳入 1852 株临床分离株[大肠埃希菌(n=475)、肺炎克雷伯菌(n=375)、阴沟肠杆菌(n=301)、金黄色葡萄球菌(n=407)和表皮葡萄球菌(n=294)],包括 WT 人群和重要的耐药表型,如 ESBL、碳青霉烯酶和 MRSA。我们评估了(i)与 18 小时标准相比,6、8 和 12 小时后 rAST 对耐药表型和 WT 人群的分离情况,以及(ii)在孵育期间 WT 人群的抑菌环直径变化及其相关的可能的流行病学折点。纸片扩散平板使用 WASPLabTM 系统自动划线、孵育和成像。

结果和结论

我们证明了在早期读取时间内,对于临床实验室中最常见的细菌病原体,重要的耐药表型可以可靠地与 WT 人群区分开来。当前的 AST 专家规则和算法可用于 rAST 识别耐药机制,例如 EUCAST 推荐的检测 ESBL、AmpC、碳青霉烯酶和 MRSA/耐甲氧西林表皮葡萄球菌的规则。然而,在使用 rAST 时,由于在孵育期间抑菌环直径(即流行病学折点)发生变化,一些物种-药物组合可能需要对临床折点进行适应性调整。

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