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在加拿大一个大型综合医疗保健区域中,对VITEK MS鉴定罕见致病性革兰氏阴性菌(GNOs)的性能进行多年比较。

Multi-year comparison of VITEK MS performance for identification of rarely encountered pathogenic Gram-negative organisms (GNOs) in a large integrated Canadian healthcare region.

作者信息

Church D L, Griener T, Gregson D

机构信息

Department of Pathology & Laboratory Medicine, Cummings School of Medicine, University of Calgary, Calgary, Canada.

Department of Medicine, Cummings School of Medicine, University of Calgary, Calgary, Canada.

出版信息

Microbiol Spectr. 2024 Oct 22;12(12):e0227624. doi: 10.1128/spectrum.02276-24.

DOI:10.1128/spectrum.02276-24
PMID:39436124
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11619596/
Abstract

This multi-year study (2014-2019) compared identification of rare and unusual Gram-negative organisms (GNOs) by matrix-assisted laser desorption ionization-time of flight mass spectrometry (MALDI-TOF MS) (VITEK MS, bioMérieux, Laval Que.) to 16S rRNA gene sequencing (16S) according to our laboratories routine workflow; 16S is done if initial MALDI-TOF MS gave discordant, wrong, or no results. GNB isolates were first analyzed by standard phenotypic methods and MALDI-TOF MS using direct deposit-full formic acid extraction; proteomics was repeated if no result occurred. Medically approved 16S analyses were done using fast protocols. Isolate sequences were analyzed using the Integrated Database Network System (IDNS3) bacterial database (SmartGene, Lausanne, Switzerland). Three hundred thirty-one GNOs including 251 (76%) aerobic Gram-negative bacilli (GNB), 63 (19%) fastidious Gram-negative coccobacilli (fGNCBs), and 17 (5%) (CAMPB) isolates were recovered from 304 specimens; >1 isolate was recovered from 19 (6%). GNOs were mainly recovered from blood cultures (31.6%) and lower respiratory specimens (43%) (one-half were isolated from cystic fibrosis patients). Accurate genus vs species identities were obtained for 67.7% and 32.5% aerobic GNBs, 73% and 60% fGNCBs, and 23.5% CAMPB (with no discrepant species), respectively. Wrong or no results were obtained for 81 (32.3%) aerobic GNBs, 17 (27%) fGNCBs, and 13 (72.2%) CAMPB. No results or misidentifications occurred for 33% of aerobic GNBs, 26% of fGNCBs, and 76.5% of CAMPB due to absence of species in the instrument's database. VITEK MS performance remained stable for aerobic GNBs and fGNCBs but improved for CAMPB with addition of and to the database. 16S remains important for identification of GNOs when proteomics fails.IMPORTANCEMatrix-assisted laser desorption ionization-time of flight mass spectrometry (MALDI-TOF MS) has transformed the identification of commonly encountered Gram-negative organisms (GNOs) in the clinical laboratory, but rare and unusual organisms continue to challenge the technology. This study verified performance of VITEK MS for identification of a broad range of rare and unusual clinical GNO isolates by our large reference laboratory workflow over a multi-year period. Although most GNOs were accurately identified by MALDI-TOF MS, a small number of clinical isolates (~1%-6%) required 16S sequencing for identification depending on the GNO category. Approximately one-third of aerobic Gram-negative bacilli (GNBs) and two-thirds of could not be accurately identified by proteomics due to lack of an organism in the instrument's database. MALDI-TOF MS databases should be continuously updated and validated, and laboratories should have a workflow for identification of unusual or rarely encountered aerobic, fastidious, and GNOs that includes 16S rRNA gene sequencing whenever proteomics cannot give a definitive identification.

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/18be/11619596/8a423560f35e/spectrum.02276-24.f001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/18be/11619596/8a423560f35e/spectrum.02276-24.f001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/18be/11619596/8a423560f35e/spectrum.02276-24.f001.jpg
摘要

这项为期多年的研究(2014 - 2019年)根据我们实验室的常规工作流程,将基质辅助激光解吸电离飞行时间质谱(MALDI - TOF MS)(VITEK MS,生物梅里埃公司,魁北克省拉瓦尔市)对罕见和不常见革兰氏阴性菌(GNOs)的鉴定结果与16S核糖体RNA基因测序(16S)结果进行了比较;如果初始MALDI - TOF MS给出不一致、错误或无结果,则进行16S测序。首先通过标准表型方法和使用直接沉积 - 全甲酸提取的MALDI - TOF MS对GNB分离株进行分析;如果没有结果,则重复蛋白质组学分析。使用快速方案进行医学认可的16S分析。使用综合数据库网络系统(IDNS3)细菌数据库(瑞士洛桑市SmartGene公司)对分离株序列进行分析。从304份标本中分离出331株GNOs,包括251株(76%)需氧革兰氏阴性杆菌(GNBs)、63株(19%)苛养革兰氏阴性球杆菌(fGNCBs)和17株(5%)弯曲杆菌属(CAMPB)分离株;19份(6%)标本中分离出>1株分离株。GNOs主要从血培养(31.6%)和下呼吸道标本(43%)中分离得到(其中一半是从囊性纤维化患者中分离得到)。对于需氧GNBs,准确鉴定到属和种的比例分别为67.7%和32.5%;对于fGNCBs,分别为73%和60%;对于CAMPB,准确鉴定到种的比例为23.5%(无种水平的差异)。81株(32.3%)需氧GNBs、17株(27%)fGNCBs和13株(72.2%)CAMPB得到错误或无结果。由于仪器数据库中缺乏相应菌种,33%的需氧GNBs、26%的fGNCBs和76.5%的CAMPB出现无结果或错误鉴定。对于需氧GNBs和fGNCBs,VITEK MS的性能保持稳定,但对于CAMPB,随着数据库中添加了[具体内容未给出]和[具体内容未给出],性能有所改善。当蛋白质组学分析失败时,16S测序对于GNOs的鉴定仍然很重要。

重要性

基质辅助激光解吸电离飞行时间质谱(MALDI - TOF MS)改变了临床实验室中常见革兰氏阴性菌(GNOs)的鉴定方式,但罕见和不常见的细菌仍然对该技术构成挑战。本研究通过我们大型参考实验室多年的工作流程,验证了VITEK MS对广泛的罕见和不常见临床GNO分离株的鉴定性能。尽管大多数GNOs通过MALDI - TOF MS能够准确鉴定,但根据GNO类别,仍有一小部分临床分离株(约1% - 6%)需要进行16S测序来鉴定。由于仪器数据库中缺乏相应菌种,约三分之一的需氧革兰氏阴性杆菌(GNBs)和三分之二的[具体内容未给出]无法通过蛋白质组学准确鉴定。MALDI - TOF MS数据库应不断更新和验证,并且实验室应具备针对不常见或罕见需氧、苛养和[具体内容未给出]GNOs的鉴定工作流程,当蛋白质组学无法给出明确鉴定结果时,应包括16S核糖体RNA基因测序。

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