Bacteremia with Streptococcus bovis/equinus complex strains is associated with hepatobiliary disease, colorectal lesions (CL), and infective endocarditis (IE). This study addressed the clinical significance of subspecies distinction of previously designated S. bovis blood culture isolates according to the updated nomenclature. During 2002-2013, all blood culture isolates previously designated as S. bovis were recultured and identified using 16S rRNA gene sequencing and MALDI-TOF (Bruker BioTyper and Vitek MS, bioMérieux). Clinical data of patients aged ≥18 years were reviewed. A review of four recent case series was performed as well. Forty blood isolates were identified using 16S rRNA sequencing. Twenty-six bacteremic patients had S. gallolyticus ssp. pasteurianus, six had S. gallolyticus ssp. gallolyticus, two had S. gallolyticus ssp. macedonicus, and six had S. infantarius bacteremia. Species diagnosis using Vitek and bioMérieux MALDI-TOF technology was applicable in 37 and 36 samples, respectively, and was successful in all samples (100 %). Subspecies identification was confirmed in 30 (83 %) samples (as compared with 16S rRNA sequencing detection). IE was diagnosed in 22 (59 %) patients and CL in 8 (20 %) patients. Both complications were associated with all subspecies. Combining our results with those of four recent series resulted in, overall, 320 bacteremic cases, of which 88 (28 %) had CL and 66 (21 %) had IE. All 'bovis/equinus' complex subspecies were associated with CL or IE. From a clinical point of view, species diagnosis using MALDI-TOF MS should suffice to warrant consideration of transesophageal echocardiography and colonoscopy.
In this study, we report the usefulness of whole-genome sequencing in detection of antibiotic resistance mechanisms and in highlighting the emergence of the carbapenem and colistin-resistant K. pneumoniae clone ST512 in Israeli hospitals.
Our aim was to evaluate the performance of matrix-assisted laser desorption/ionization time-of-flight mass spectrometry (MALDI-TOF MS), routinely used in the microbiology laboratory for bacterial identification, for bacterial typing in the setting of extended spectrum beta-lactamase producing Klebsiella pneumoniae (ESBL-KP) outbreak in the neonatal intensive care unit (NICU). Isolates from a 2011 outbreak in the NICU were retrieved from frozen stocks and analyzed by MALDI-TOF. The MALDI typing was compared with core genome multilocus sequence typing (cg-MLST). MALDI typing divided the 33 outbreak isolates into 2 clones: sequence type (ST)-290 and 405. These results were in complete agreement with cg-MLST results. The differentiation of the outbreak isolates into two clones correlated with the patients' location in the NICU, but also with their place of residence. Conclusion: Here, we show that MALDI-TOF MS, which has been integrated into the microbiology laboratory workflow for microbial species identification, can be secondarily used for epidemiological typing at no added cost. What is Known: • Matrix-assisted laser desorption/ionization time-of-flight mass spectrometry (MALDI-TOF MS) is now routinely used in the microbiology laboratory for bacterial identification What is New: • MALDI typing was used for outbreak investigation in the NICU and divided the outbreak isolates into two clones • MALDI-TOF MS may be secondarily used for epidemiological typing at no added cost.
Bacillus cereus isolates causing an outbreak in the neonatal intensive care unit were investigated using whole-genome sequencing. The outbreak coincided with construction work performed adjacent to the neonatal intensive care unit and ceased after strict sealing of the construction area. We found the outbreak to be polyclonal, however, the clonality did not correlate with the virulence in vivo. Genotypically similar isolates were associated with both lethal/severe infection and colonization/environmental contamination. Environmental bacterial load may be a major determinant of infection, especially in high-risk patients. Clinicians should be alert to unusual increase in B. cereus isolations from clinical cultures to facilitate early recognition and investigations of Bacillus outbreaks and pseudo-outbreaks. The integration of genomics into the classical infectious disease work can augment our understanding of pathogen transmission and virulence, and can rapidly assist our response to unusual disease trends.
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