肠球菌属的菌种鉴定:全基因组测序与三种基于生化试验的系统以及两种基质辅助激光解吸/电离飞行时间质谱(MALDI-TOF MS)系统的比较
Species identification of Enterococcus spp: Whole genome sequencing compared to three biochemical test-based systems and two Matrix-Assisted Laser Desorption/Ionization Time-of-Flight Mass Spectrometry (MALDI-TOF MS) systems.
作者信息
Garza-González Elvira, Bocanegra-Ibarias Paola, Dinh An, Morfín-Otero Rayo, Camacho-Ortiz Adrián, Rojas-Larios Fabián, Rodríguez-Zulueta Patricia, Arias Cesar A
机构信息
Hospital Universitario "Dr. José Eleuterio González", Universidad Autónoma de Nuevo León, Monterrey, Mexico.
Division of Infectious Diseases and Center for Antimicrobial Resistance and Microbial Genomics (CARMiG), McGovern Medical School, UTHealth, Houston, TX, USA.
出版信息
J Clin Lab Anal. 2020 Aug;34(8):e23348. doi: 10.1002/jcla.23348. Epub 2020 May 1.
AIM
Here, we evaluated the performance of two commercial MALDI-TOF MS systems and three biochemical-based systems and compared them to WGS as the gold standard for identifying isolates of vancomycin-resistant enterococci (VRE).
METHODS
A total of 87 VRE clinical isolates were included. The mass spectrometers were the Microflex system with Biotyper software 3.1 and the Vitek MS system. The biochemical-based systems included the Vitek 2, Phoenix, and MicroScan WalkAway systems. WGS was performed on an Illumina MiSeq instrument using the MiSeq v3 reagent kit. Vancomycin resistance was determined according to CLSI criteria.
RESULTS
Among the 87 VRE, 71 and 16 were identified as Enterococcus faecium and Enterococcus faecalis by WGS. All 71 E faecium were correctly identified by both mass spectrometers, as well as the Vitek 2 and Phoenix instruments. However, only 51 E faecium isolates were correctly identified by the MicroScan system. The most frequent misidentification was Enterococcus casseliflavus (n = 20). For vancomycin-resistant E faecium, the Microflex Biotyper system had the highest sensitivity (85.54%), and all instruments (except for the Microscan) had a 100% specificity and PPV. Up to 87% of E faecalis isolates were misidentified by VITEK MS and VITEK2, 81% by Microscan and Phoenix, and 75% by Bruker biotyper.
CONCLUSION
As the coverage of type strain-genome sequence database continues to grow and the cost of DNA sequencing continues to decrease, genome-based identification can be a useful tool for diagnostic laboratories, with its superior accuracy even over MALDI-TOF and database-driven operations.
目的
在此,我们评估了两种商用基质辅助激光解吸电离飞行时间质谱(MALDI-TOF MS)系统和三种基于生化的系统的性能,并将它们与全基因组测序(WGS)进行比较,WGS作为鉴定耐万古霉素肠球菌(VRE)分离株的金标准。
方法
共纳入87株VRE临床分离株。质谱仪为配备Biotyper软件3.1的Microflex系统和Vitek MS系统。基于生化的系统包括Vitek 2、Phoenix和MicroScan WalkAway系统。使用MiSeq v3试剂试剂盒在Illumina MiSeq仪器上进行WGS。根据临床和实验室标准协会(CLSI)标准确定万古霉素耐药性。
结果
在87株VRE中,通过WGS鉴定出71株为粪肠球菌,16株为屎肠球菌。所有71株粪肠球菌均被两种质谱仪以及Vitek 2和Phoenix仪器正确鉴定。然而,MicroScan系统仅正确鉴定了51株粪肠球菌分离株。最常见的错误鉴定是格氏肠球菌(n = 20)。对于耐万古霉素粪肠球菌,Microflex Biotyper系统具有最高的灵敏度(85.54%),并且所有仪器(Microscan除外)具有100%的特异性和阳性预测值。高达87%的屎肠球菌分离株被VITEK MS和VITEK2错误鉴定,81%被Microscan和Phoenix错误鉴定,75%被布鲁克Biotyper错误鉴定。
结论
随着模式菌株基因组序列数据库的覆盖范围不断扩大以及DNA测序成本不断降低,基于基因组的鉴定对于诊断实验室可能是一种有用的工具,其准确性甚至优于MALDI-TOF和基于数据库的操作。
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