A novel molecular assay conducted on the BD Max system to facilitate reflex testing for vanA and vanB in clinical isolates of enterococci

IF 3.6 3区 医学 Q1 PATHOLOGY
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引用次数: 0

Abstract

Infections caused by vancomycin-resistant enterococci (VRE) are common. Real-time PCR assays targeting vanA and vanB facilitate screening of patients in healthcare settings to limit the risk of dissemination, especially amongst those at high-risk of infection or with limited treatment options. Such assays are commonly performed as reflex testing procedures where they augment phenotypic techniques and shorten turnaround time to benefit timely clinical management. ‘Random access’ and ‘sample-to-result’ real-time PCR platforms are suited for this application as they are of low complexity and less technically demanding. Modelled on these attributes, we configured a real-time PCR assay (VRE BD) for detection of vanA/B in clinical isolates of enterococci, adapted for the BD Max System (Becton Dickinson). We applied an unconventional approach by testing suspensions of microorganisms in water to circumvent the traditional pre-analytical genomic extraction process. Our objective of this study was to assess the performance of this assay for detection of VRE in cultures by validating against a traditional real-time PCR assay based on the LightCycler 2.0 platform (Roche, VRE RO). A high level of analytical sensitivity and specificity (≥99.0%) for both genes was obtained when testing suspensions derived from blood agar. Results for suspensions obtained from chromID VRE (Edwards Group) showed a similar level of performance for vanA detection (100%), but not for the vanB target (≥90.9%) where a lesser number of isolates were available for testing. However, our results for VRE detection in isolates from these media were repeatable and reproducible, and equated to positive and negative predictive values of ≥95.2% and ≥97.8%, respectively. Furthermore, the VRE BD assay was also able to accurately detect VRE in clinical and spiked BacT/ALERT (bioMérieux) blood cultures. Thus, the technical simplicity, short turnaround time and robustness of this high performing assay for VRE is suitable for reflex testing. In addition, the format developed for the BD Max platform has potential application for reflex testing other molecular targets of clinical importance.

在 BD max 系统上进行的新型分子检测,有助于对临床分离的肠球菌中的 vanA 和 vanB 进行反射检测
耐万古霉素肠球菌(VRE)引起的感染很常见。实时聚合酶链式反应(Real-time PCR)检测法可对医疗机构中的患者进行有针对性的筛查,以限制传播风险,尤其是那些感染风险高或治疗方案有限的患者。此类检测通常作为反射检测程序进行,可增强表型技术并缩短周转时间,从而有利于及时进行临床管理。随机访问 "和 "样本到结果 "实时 PCR 平台适合这种应用,因为它们的复杂性低,技术要求不高。根据这些特点,我们配置了一种实时 PCR 检测方法(VRE BD),用于检测临床分离的肠球菌中的/,该方法适用于 BD Max 系统(Becton Dickinson)。我们采用了一种非常规的方法,通过检测水中的微生物悬浮液来规避传统的分析前基因组提取过程。本研究的目的是通过与基于 LightCycler 2.0 平台(罗氏,VRE RO)的传统实时 PCR 检测方法进行验证,评估该检测方法检测培养物中 VRE 的性能。在检测来自血琼脂的悬浮液时,两种基因的分析灵敏度和特异性都很高(≥99.0%)。从 chromID VRE(Edwards 集团)中提取的悬浮液的检测结果显示了类似的检测水平(100%),但目标检测水平(≥90.9%)却不尽相同,因为可供检测的分离物数量较少。不过,我们从这些培养基分离物中检测出的 VRE 结果具有可重复性和再现性,其阳性预测值和阴性预测值分别为 ≥95.2% 和 ≥97.8%。此外,VRE BD 检测法还能准确检测临床和加标 BacT/ALERT(生物梅里埃)血液培养物中的 VRE。因此,这种高效的 VRE 检测试剂盒技术简单、周转时间短且稳健,适用于反射检测。此外,为 BD Max 平台开发的格式还可用于其他临床重要分子靶标的反射检测。
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
Pathology
Pathology 医学-病理学
CiteScore
6.50
自引率
2.20%
发文量
459
审稿时长
54 days
期刊介绍: Published by Elsevier from 2016 Pathology is the official journal of the Royal College of Pathologists of Australasia (RCPA). It is committed to publishing peer-reviewed, original articles related to the science of pathology in its broadest sense, including anatomical pathology, chemical pathology and biochemistry, cytopathology, experimental pathology, forensic pathology and morbid anatomy, genetics, haematology, immunology and immunopathology, microbiology and molecular pathology.
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