Evaluation of Fourier transform infrared spectroscopy for the rapid identification of glycopeptide-intermediate Staphylococcus aureus

doi:10.1093/jac/dkm400

JAC Advance Access published online on October 24, 2007
Journal of Antimicrobial Chemotherapy, doi:10.1093/jac/dkm400

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© The Author 2007. Published by Oxford University Press on behalf of the British Society for Antimicrobial Chemotherapy. All rights reserved. For Permissions, please e-mail: journals.permissions@oxfordjournals.org

Evaluation of Fourier transform infrared spectroscopy for the rapid identification of glycopeptide-intermediate Staphylococcus aureus

Nassim M. Amiali¹^,2^,*, Michael R. Mulvey³, Brigitte Berger-Bächi⁴, Jacqueline Sedman², Andrew E. Simor⁵ and Ashraf A. Ismail²

¹ Quelab Laboratories Inc., Montreal, QC, Canada ² McGill IR Group, McGill University, Montreal, QC, Canada ³ Nosocomial Infections, National Microbiology Laboratory, Public Health Agency of Canada, Winnipeg, MB, Canada ⁴ Institute of Medical Microbiology, University of Zürich, Switzerland ⁵ Sunnybrook and Women's College, Health Science Center, Toronto, ON, Canada

Received 9 July 2007; returned 8 August 2007; revised 21 September 2007; accepted 26 September 2007

^* Corresponding author. Tel: +1-514-277-2558, ext. 13; Fax: +1-514-277-4714; E-mail: nassim.amiali{at}gmail.com

Objectives: To evaluate Fourier transform infrared (FTIR) spectroscopy asa rapid method for distinguishing glycopeptide-intermediateStaphylococcus aureus (GISA) from glycopeptide-susceptible methicillin-resistantS. aureus (MRSA) and to compare three data analysis methods.

Methods: First-derivative normalized spectra of dried films of bacterialgrowth on Que-Bact^® Universal Medium No. 2 were examinedby singular value decomposition to identify key spectral regions.Region selection was analysed by principal component analysis(PCA), self-organizing maps (SOMs) and the K-nearest neighbour(KNN) algorithm. The initial data set included 35 GISA (includingGISA Mu50 and heterogeneous GISA Mu3) and 25 epidemic MRSA.The regions were then tested using enlarged data sets that included22 sporadic and 85 additional epidemic MRSA.

Results: Epidemic MRSA and GISA/hGISA were separated into two distinctclusters on the basis of spectral data from regions 1352–1315and 1480–1460 cm^–1, the former providing 100% correctclassification by all three analyses and the latter providing96.67% correct by PCA, 98.34% by SOM and 100% by KNN. The 1480–1460cm^–1 region was more effective for distinguishing GISA/hGISAfrom a set combining sporadic and epidemic MRSA, with two GISA/hGISAand four sporadic MRSA misclassified by PCA and SOM (92.69%correct), while the KNN method misclassified three of the foursporadic MRSA (93.90% correct). The addition of 85 other epidemicMRSA this set increased the fraction of correctly classifiedisolates to 96.41% and 97.01% by PCA, SOM and KNN, respectively.

Conclusions: As only 6 of 167 isolates were misclassified, FTIR spectroscopymay provide means of rapid and accurate identification of GISAand hGISA among isolates of MRSA.

Key Words: infrared spectroscopic method , glycopeptide resistance , heterogeneous GISA , MRSA

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