Clinical application of Vitek-derived minimum inhibitory concentration values: Proof of concept study.

IF 1.4 Q4 INFECTIOUS DISEASES
Warren Lowman
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Abstract

Background: Minimum inhibitory concentration (MIC) values are useful in guiding appropriate antimicrobial therapy however, routine provision and interpretation of MIC values to guide clinical decision-making is challenging.

Objectives: This proof of concept study aims to demonstrate the clinical utility and application of Vitek®-derived MIC values through categorisation of clinical isolates as wild type.

Method: A random selection of clinically relevant Gram negative isolates routinely tested on the Vitek® instrument were included. The Vitek® MIC values, for selected antimicrobials at the lowest calling range of that card, were compared to the broth microdilution reference method. The specified end-point was concordance between the two results if the reference MIC was less than or equal to the EUCAST-defined epidemiological cut-off value (ECOFF) for that drug-bug combination.

Results: A total of 525 isolates were included (468 Enterobacterales and 57 Pseudomonas aeruginosa), with an overall concordance rate of 96.4% (508/525). Correct ECOFF categorisation by the Vitek® was highest for ceftazidime and piperacillin (100%, n = 48 and n = 55, respectively) and lowest for cefepime (81.8%, n = 66).

Conclusion: Vitek®-derived MIC values can be used to categorise organisms as wild-type if the MIC is reported at the card's lowest calling range (≤) as there is high likelihood that the MIC is at or below the ECOFF. This has important implications for antimicrobial management, assisting in choice of agent and in improving probability of target attainment for desired pharmacodynamic targets which can translate into improved clinical outcomes.

Contribution: Minimum inhibitory concentration data from an automated antimicrobial susceptibility testing instrument can be used to guide clinical decisions.

Abstract Image

vitek衍生最小抑制浓度值的临床应用:概念验证研究。
背景:最低抑菌浓度(MIC)值有助于指导适当的抗菌药物治疗,然而,常规提供和解释MIC值来指导临床决策是具有挑战性的。目的:这项概念验证研究旨在通过将临床分离株分类为野生型来证明Vitek®衍生MIC值的临床实用性和应用。方法:随机选择临床相关的革兰氏阴性分离株,在Vitek®仪器上常规检测。将该卡最低召唤范围内所选抗菌剂的Vitek®MIC值与肉汤微量稀释参考方法进行比较。如果参考MIC小于或等于eucast定义的该药物-细菌组合的流行病学临界值(ECOFF),则指定终点为两个结果之间的一致性。结果:共检出菌株525株(肠杆菌468株,铜绿假单胞菌57株),总体符合率为96.4%(508/525)。Vitek®的ECOFF正确率最高的是头孢他啶和哌拉西林(100%,n = 48和n = 55),最低的是头孢吡肟(81.8%,n = 66)。结论:如果MIC报告在卡片的最低呼叫范围(≤),则Vitek®衍生的MIC值可用于将生物体分类为野生型,因为MIC很可能处于或低于ECOFF。这对抗菌药物管理具有重要意义,有助于选择药物,提高达到预期药效学目标的可能性,从而转化为改善的临床结果。贡献:来自自动抗菌药物敏感性测试仪器的最小抑制浓度数据可用于指导临床决策。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
自引率
11.10%
发文量
50
审稿时长
52 weeks
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