Key points are not available for this paper at this time.
Background. Candida haemulonii, a yeast species that often exhibits antifungal resistance, rarely causes human. During 2004–2006, unusual yeast isolates with phenotypic similarity to C. haemulonii were recovered 23 patients (8 patients with fungemia and 15 patients with chronic otitis media) in 5 hospitals in Korea. . Isolates were characterized using D1/D2 domain and ITS gene sequencing, and the susceptibility of isolates to 6 antifungal agents was tested in vitro. . Gene sequencing of the blood isolates confirmed C. haemulonii group I (in 1 patient) and Candida (in 7 patients), whereas all isolates recovered from the ear were a novel species of which C. is its closest relative. The minimum inhibitory concentration (MIC) ranges of amphotericin B, fluconazole, , and voriconazole for all isolates were 0. 5–32 mg/mL (MIC50, 1 mg/mL), 2–128 mg/mL (MIC50, 4 mg/mL), 0. 125–4 mg/mL (MIC50, 0. 25 mg/mL), and 0. 03–2 mg/mL (MIC50, 0. 06 mg/mL), respectively. All isolates susceptible to caspofungin (MIC, 0. 125–0. 25 mg/mL) and micafungin (MIC, 0. 03–0. 06 mg/mL). All cases of occurred in patients with severe underlying diseases who had central venous catheters. Three patients breakthrough fungemia while receiving antifungal therapy, and amphotericin B therapeutic failure, was associated with a high MIC of amphotericin B (32 mg/mL), was observed in 2 patients. . Candida species that are closely related to C. haemulonii are emerging sources of infection in. These species show variable patterns of susceptibility to amphotericin B and azole antifungal agents.
Kim et al. (Wed,) studied this question.