Purpose: Bloodstream infections are major causes of morbidity and mortality among hospitalized patients worldwide. Early identification of micro-organisms from blood culture can facilitate earlier optimization of treatment. The objective of this study was to assess an in-house method based on a new matrix-assisted laser desorption/ionization time-of-flight mass spectrometry (MALDI-TOF MS) platform (Clin-TOF MS) for direct organism identification.
Methodology: We studied the performance of the in-house method for direct identification and the conventional sub-culture method in parallel. Identification from subcultures was analysed with Bruker MS as the reference method.
Results: A total of 666 blood cultures with a single micro-organism that flagged positive after no more than a 3-day incubation period were collected. The identification accuracy of the in-house Clin-TOF MS method for direct identification and the sub-culture method was 88.6 and 100 %, respectively. The in-house method exhibited better performance for Gram-negative bacteria than for Gram-positive bacteria (93.3 vs 81.6 %). The accuracy rate for anaerobes was 100 % (3/3). The lowest accurate identification rate was for yeast; this was only 20 %. Lytic Anaerobic/F (LAF) and Plus Aerobic/F (PAF) provided the highest accurate identification rates, and it was noteworthy that the accuracy rate for FAN Aerobic (FA) was 82 %, which is higher than previously reported and showed that the method was effective.
Conclusion: Our study provides an effective sample preparation method for the direct identification of pathogens from positive blood culture vials via Clin-TOF MS at a very low cost of about $0.5 per sample and with a short turnaround time of about 20 min. This will help clinicians make precise diagnoses and provide targeted prescriptions, reducing the risk of the potential development of resistance.
Keywords: Clin-TOF MS; MALDI-TOF MS; bloodstream infection; direct identification; in-house method.