Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
5666002 | Diagnostic Microbiology and Infectious Disease | 2016 | 5 Pages |
Mycobacterial identification using MALDI-ToF MS (MALDI) has been hindered by inadequate extraction methods. Adaptive Focused Acoustics⢠uses concentrated ultrasonic energy to achieve cellular disruption. Using this technology, we developed a rapid mycobacterial inactivation/protein extraction method for MALDI-based identification. Agreement for identification to the species level versus conventional identification was stratified by log confidence cut-offs of â¥2.0, ⥠1.8, or â¥1.7. A total of 182 mycobacterial isolates were tested. Complete inactivation of all species/strains was achieved after 2 min. Using a log confidence cut-off of â¥2.0, overall agreement for the commercial method (CM) was 41.7% versus 66.7% for the novel method (NM). For the CM, agreement increased to 66.7% and 83.3% using log confidence cut-offs of â¥1.8 and â¥1.7, respectively; for the NM, agreement was 100% for both cut-offs with all isolates. With no alteration to the existing database, overall agreement for the NM was 83.4%, largely due to low scores for clinical isolates of M. chelonae and M. mucogenicum. Addition of spectra from a single clinical strain of each species to the existing database increased overall agreement to 93.1%.