Background
Diabetic foot infection is the most common complications of diabetes mellitus. Although most of the diabetic foot infections has been known to be caused by aerobic and anaerobic bacteria, mycotic diabetic foot infection caused by Candida species has also been reported recently. Here, we present the first case of diabetic foot infection caused by Cutaneotrichosporon debeurmannianum (previously known as Trichosporon debeurmannianum).
Methods
A 68‐year‐old diabetic male patient was admitted for management of the necrosis of the big toe. Wound swab culture was performed three times, and each time after 5 days of incubation, beige‐colored, wrinkled, and rough colonies were observed on chocolate agar plate.
Results
The isolate was identified as C. debeurmannianum with the matrix‐assisted laser desorption ionization‐time of flight mass spectrometry system (MicroIDSys, ASTA corp.). For confirmation, the sequencing for ITS1/ITS2 and D1/D2 ribosomal DNA was also performed, and the isolate was confirmed as C. debeurmannianum with 100% identity. The isolate exhibited low minimum inhibitory concentrations (MICs) for azoles and high MICs for all echinocandins.
Conclusion
Considering that usual incubation time for bacterial culture of open wound specimens is only 48 h, it is important to include the request for fungus culture to detect pathogen in diabetic foot lesion.
We evaluated the performance of the BioFire® FilmArray® Pneumonia panel (PN-panel) in detecting bacterial pathogens by comparing it to cultures and to the usefulness of the leukocyte esterase (LE) urine strip test. Between January and June 2022, a total of 67 sputum specimens were obtained from community-acquired pneumonia patients. The PN-panel and LE test were performed simultaneously with conventional cultures. The pathogen detection rates of the PN-panel and culture were 40/67 (59.7%) and 25/67 (37.3%), respectively. The concordance rate between the PN-panel and culture was high (76.9%) when the bacterial burden was high (107 copies/mL), but it was low (8.6%) when it was 104−6 copies/mL, irrespective of the sputum quality. According to the LE positivity, the overall culture positive rate and PN-panel positive rate were significantly higher among the LE-positive specimens (23/45, 31/45) than among the LE-negative specimens (2/21, 8/21). Moreover, the difference in concordance rate between the PN-panel test and culture was significant according to the LE positivity, but not the Gram stain grading. In conclusion, the PN-panel showed high concordance when the bacterial burden was high (107 copies/mL) and ancillary use of LE test will be helpful in interpreting the PN-panel results, especially when the copy number of bacterial pathogens is low.
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