OBJECTIVE: To determine the susceptibilities of Candida species isolated from Taiwan to amphotericin B and fluconazole. DESIGN: Prospective surveillance study. METHODS: Each hospital was asked to submit up to 10 C. albicans and 40 non-albicans Candida species during the collection period, from April 15 to June 15, 1999. One isolate was accepted from each episode of infection. The broth microdilution method was used to determine susceptibilities to amphotericin B and fluconazole. RESULTS: Only 3 of 632 isolates, one each of C. famata, C. krusei, and C. tropicalis, were resistant to amphotericin B. A total of 53 (8.4%) of 632 clinical yeast isolates, consisting of 4% C. albicans, 8% C. glabrata, 15% C. tropicalis, and 70% C. krusei, were resistant to fluconazole. In contrast, no C. parapsilosis isolate was resistant to fluconazole. Isolates from tertiary-care medical centers had higher rates of resistance to fluconazole than did those from regional and local hospitals (11.4% vs 6.6%). Isolates from different sources showed different levels of susceptibility to fluconazole. All of the isolates with the exception of C. tropicalis and C. krusei isolated from blood were susceptible to fluconazole. A pattern of co-resistance to both amphotericin B and fluconazole was observed. CONCLUSIONS: Non-albicans Candida species had higher rates of resistance to fluconazole than did C. albicans (44 of 395 [11.2%] vs 9 of 237 [3.8%]; P = .002). The increasing rate of fluconazole resistance in C. tropicalis (15%) is important because C. tropicalis is one of the most commonly isolated non-albicans Candida species.
OBJECTIVE: To determine the susceptibilities of Candida species isolated from Taiwan to amphotericin B and fluconazole. DESIGN: Prospective surveillance study. METHODS: Each hospital was asked to submit up to 10 C. albicans and 40 non-albicansCandida species during the collection period, from April 15 to June 15, 1999. One isolate was accepted from each episode of infection. The broth microdilution method was used to determine susceptibilities to amphotericin B and fluconazole. RESULTS: Only 3 of 632 isolates, one each of C. famata, C. krusei, and C. tropicalis, were resistant to amphotericin B. A total of 53 (8.4%) of 632 clinical yeast isolates, consisting of 4% C. albicans, 8% C. glabrata, 15% C. tropicalis, and 70% C. krusei, were resistant to fluconazole. In contrast, no C. parapsilosis isolate was resistant to fluconazole. Isolates from tertiary-care medical centers had higher rates of resistance to fluconazole than did those from regional and local hospitals (11.4% vs 6.6%). Isolates from different sources showed different levels of susceptibility to fluconazole. All of the isolates with the exception of C. tropicalis and C. krusei isolated from blood were susceptible to fluconazole. A pattern of co-resistance to both amphotericin B and fluconazole was observed. CONCLUSIONS: Non-albicansCandida species had higher rates of resistance to fluconazole than did C. albicans (44 of 395 [11.2%] vs 9 of 237 [3.8%]; P = .002). The increasing rate of fluconazole resistance in C. tropicalis (15%) is important because C. tropicalis is one of the most commonly isolated non-albicansCandida species.
Authors: Moan Shane Tsai; Yun Liang Yang; An Huei Wang; Lih Shinn Wang; Daniel C T Lu; Ci Hong Liou; Li Yun Hsieh; Chi Jung Wu; Ming Fang Cheng; Zhi Yuan Shi; Hsiu Jung Lo Journal: Mycopathologia Date: 2012-02-09 Impact factor: 2.574
Authors: Ying-Lien Chen; Shang-Jie Yu; Hsin-Yu Huang; Ya-Lin Chang; Virginia N Lehman; Fitz Gerald S Silao; Ursela G Bigol; Alice Alma C Bungay; Anna Averette; Joseph Heitman Journal: Eukaryot Cell Date: 2014-01-17
Authors: Ariane Bruder-Nascimento; Carlos Henrique Camargo; Maria Fátima Sugizaki; Terue Sadatsune; Augusto Cezar Montelli; Alessandro Lia Mondelli; Eduardo Bagagli Journal: BMC Res Notes Date: 2010-01-03