Multi-center evaluation of the VITEK® MS system for mass spectrometric identification of non-Enterobacteriaceae Gram-negative bacilli

R. Manji, M. Bythrow, J. A. Branda, C. A.D. Burnham, M. J. Ferraro, O. B. Garner, R. Jennemann, M. A. Lewinski, A. B. Mochon, G. W. Procop, S. S. Richter, J. A. Rychert, L. Sercia, L. F. Westblade, C. C. Ginocchio

Research output: Contribution to journalArticlepeer-review

35 Scopus citations

Abstract

Studies have demonstrated that matrix-assisted laser desorption ionization time-of-flight mass spectrometry (MALDI-TOF MS) is a rapid, accurate method for the identification of clinically relevant bacteria. The purpose of this study was to evaluate the performance of the VITEK MS v2.0 system (bioMérieux) for the identification of the non-Enterobacteriaceae Gram-negative bacilli (NEGNB). This multi-center study tested 558 unique NEGNB clinical isolates, representing 18 genera and 33 species. Results obtained with the VITEK MS v2.0 were compared with reference 16S rRNA gene sequencing and when indicated recA sequencing and phenotypic analysis. VITEK MS v2.0 provided an identification for 92.5 % of the NEGNB isolates (516 out of 558). VITEK MS v2.0 correctly identified 90.9 % of NEGNB (507 out of 558), 77.8 % to species level and 13.1 % to genus level with multiple species. There were four isolates (0.7 %) incorrectly identified to genus level and five isolates (0.9 %), with one incorrect identification to species level. The remaining 42 isolates (7.5 %) were either reported as no identification (5.0 %) or called "mixed genera" (2.5 %) since two or more different genera were identified as possible identifications for the test organism. These findings demonstrate that the VITEK MS v2.0 system provides accurate results for the identification of a challenging and diverse group of Gram-negative bacteria.

Original languageEnglish
Pages (from-to)337-346
Number of pages10
JournalEuropean Journal of Clinical Microbiology and Infectious Diseases
Volume33
Issue number3
DOIs
StatePublished - Mar 2014

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