Drug susceptibility testing of Nocardia spp. using the disk diffusion method.

IF 4.6 2区医学 Q1 MICROBIOLOGY

Annals of Clinical Microbiology and Antimicrobials Pub Date : 2024-12-18 DOI:10.1186/s12941-024-00768-2

Clémence Prudhomme, Brune Joannard, Gérard Lina, Eleonore De Launay, Oana Dumitrescu, Elisabeth Hodille

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引用次数: 0

Abstract

Background: Drug susceptibility testing (DST) for Nocardia spp. is essential to initiate effective antibiotic therapy. Currently, the only recommended technique is the determination of minimum inhibitory concentrations (MICs) by microdilution. This method can be tedious to perform, despite the availability of ready-to-use plates. Herein, the aim was to determine the critical inhibition diameters specific to Nocardia spp.

Methods: MICs of 134 Nocardia isolates were determined by microdilution. Interpretative categories (Susceptible/Intermediate/Resistant) were determined using Clinical and Laboratory Standards Institute breakpoints. In parallel, disk diffusion DST was performed. Receiver-operating-characteristic (ROC) curves were constructed to determine the inhibition diameter value that best discriminated between susceptible and non-susceptible strains (intermediate/resistant). The category agreement (CA), the rate of major (maj) and very major (vmj) discrepancies between microdilution and disk diffusion method was calculated.

Results: For tobramycin, the critical diameter of 19 mm (diameter ≤ 19 mm = resistant strain; diameter > 19 mm = susceptible strain) provided a CA of 98.5%, 0.0% vmj, and 2.9% maj discrepancies, reaching strictly the acceptable performance criteria defined by the U.S. Food and Drug Administration (FDA). For amikacin, the critical diameter of 25 mm (diameter ≤ 25 mm = resistant strain; diameter > 25 mm = susceptible strain) provided a CA of 98.5%, 0.0% vmj, and 1.5% maj discrepancies. For imipenem, excluding N. farcinica and N. cyriacigeorgica, the critical diameter of 29 mm (diameter ≤ 29 mm = resistant strain; diameter > 29 mm = susceptible strain), provided a CA of 98.6%, 0.0% vmj, and 0.0% maj discrepancies. Despite an estimated vmj rate 0.0%, the 95%-confident-interval exceeded the FDA criteria due to an insufficient number of amikacin/imipenem-resistant strains. For other tested antibiotics (ciprofloxacin, moxifloxacin, amoxicillin-clavulanate, ceftriaxone, cotrimoxazole, linezolid), the FDA criteria were not reached.

Conclusions: Although the FDA criteria were mostly unmet, disk diffusion DST was suitable to accurately categorize Nocardia isolates into interpretative categories for the aminoglycosides and imipenem only, excluding species N. farcinica and N. cyriacigeorgica.

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纸片扩散法检测诺卡菌的药敏。

背景：诺卡菌的药敏试验（DST）对开始有效的抗生素治疗至关重要。目前，唯一推荐的技术是通过微量稀释测定最低抑制浓度（mic）。尽管有现成的盘子，但这种方法执行起来可能很繁琐。方法：采用微量稀释法测定134株诺卡菌的mic值。根据临床和实验室标准协会的断点确定解释分类（敏感/中级/耐药）。同时进行磁盘扩散DST。构建受体工作特征（ROC）曲线，确定最能区分敏感菌株和非敏感菌株（中间/耐药）的抑制直径值。计算了微量稀释法和纸片扩散法的类别一致性（CA）、主要差异率（maj）和非常差异率（vmj）。结果：妥布霉素的临界直径为19 mm(直径≤19 mm =耐药菌株；直径> 19 mm =敏感菌株)的CA为98.5%，vmj为0.0%，主要差异为2.9%，严格达到美国食品和药物管理局（FDA）规定的可接受性能标准。对于阿米卡星，临界直径为25mm(直径≤25mm =耐药菌株；直径> 25 mm =敏感菌株)的CA为98.5%，vmj为0.0%，主要差异为1.5%。对亚胺培南，除法氏奈瑟菌和cyriacigorgica外，临界直径为29 mm(直径≤29 mm =耐药菌株；直径> 29 mm =敏感菌株)，CA为98.6%，vmj为0.0%，主要差异为0.0%。尽管估计vmj率为0.0%，但95%置信区间超过了FDA标准，因为阿米卡星/亚胺培南耐药菌株数量不足。其他被检测的抗生素（环丙沙星、莫西沙星、阿莫西林-克拉维酸酯、头孢曲松、复方新诺明、利奈唑胺）未达到FDA标准。结论：虽然大多数诺卡菌不符合FDA的标准，但磁盘扩散DST仅适用于氨基糖苷类和亚胺培南类诺卡菌的准确分类，不包括法诺卡菌和cyriacigeorgica。

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

Annals of Clinical Microbiology and Antimicrobials MICROBIOLOGY-

CiteScore

8.60

自引率

0.00%

发文量

审稿时长

>12 weeks

期刊介绍： Annals of Clinical Microbiology and Antimicrobials considers good quality, novel and international research of more than regional relevance. Research must include epidemiological and/or clinical information about isolates, and the journal covers the clinical microbiology of bacteria, viruses and fungi, as well as antimicrobial treatment of infectious diseases. Annals of Clinical Microbiology and Antimicrobials is an open access, peer-reviewed journal focusing on information concerning clinical microbiology, infectious diseases and antimicrobials. The management of infectious disease is dependent on correct diagnosis and appropriate antimicrobial treatment, and with this in mind, the journal aims to improve the communication between laboratory and clinical science in the field of clinical microbiology and antimicrobial treatment. Furthermore, the journal has no restrictions on space or access; this ensures that the journal can reach the widest possible audience.