The in vitro activity of caspofungin (CAS) was investigated against 28 yeast isolates belonging to Candida albicans (n ؍ 5), Candida guilliermondii (n ؍ 10), and Candida parapsilosis (n ؍ 13). CAS MICs obtained by broth dilution and Etest methods clearly showed a rank order of susceptibility to the echinocandin compound with C. albicans > C. parapsilosis > C. guilliermondii. Similarly, time-kill assays performed on selected isolates showed that CAS was fungistatic against C. albicans and C. parapsilosis, while it did not exert any activity against C. guilliermondii. In a murine model of systemic candidiasis, CAS given at doses as low as 1 mg/kg of body weight/day was effective at reducing the kidney burden of mice infected with either C. albicans or C. guilliermondii isolates. Depending on the isolate tested, mice infected with C. parapsilosis responded to CAS given at 1 and/or 5 mg/kg/day. However, the overall CFU reduction for C. guilliermondii and C. parapsilosis was approximately 100-fold less than that for C. albicans. Our study shows that CAS was active in experimental systemic candidiasis due to C. guilliermondii and C. parapsilosis, but this activity required relatively high drug dosages.
We conducted a prospective study to address the prevalence and microbiological characteristics of yeast isolates colonizing the oral cavities of HIV-infected patients undergoing highly active antiretroviral therapy. Sixty-eight patients (67%) from a total of 102 were found to be colonized with yeasts. Sixty-five patients carried a single species (60 Candida albicans, three Candida glabrata and two Candida krusei) and three patients had mixed colonization of C. albicans and C. krusei. The status of yeast carrier was not associated with the number of CD4 cells or the viral load. Similarly, the type of antiretroviral regimen was not associated with the carriage of Candida spp. The only predictor of Candida colonization was a previous history of oropharyngeal candidiasis (P = 0.009). Although many patients in this series had already been treated with repeated courses of fluconazole therapy for previous episodes of oropharyngeal candidiasis, fluconazole susceptibility patterns showed that 93% of yeasts were susceptible to this triazole in vitro (MIC < or = 8.0 mg/L).
A broth microdilution method performed in accordance with the National Committee for Clinical Laboratory Standards guidelines was used to compare the in vitro activity of the new antifungal triazole SCH 56592 (SCH) to that of fluconazole (FLC), itraconazole (ITC), and ketoconazole (KETO) against 257 clinical yeast isolates. They included 220 isolates belonging to 12 different species of Candida, 15 isolates each of Cryptococcus neoformans and Saccharomyces cerevisiae, and seven isolates of Rhodotorula rubra. The MICs of SCH at which 50% (MIC 50 ) and 90% (MIC 90 ) of the isolates were inhibited were 0.06 and 2.0 g/ml, respectively. In general, SCH was considerably more active than FLC (MIC 50 and MIC 90 of 1.0 and 64 g/ml, respectively) and slightly more active than either ITC (MIC 50 and MIC 90 of 0.25 and 2.0 g/ml, respectively) and KETO (MIC 50 and MIC 90 of 0.125 and 4.0 g/ml, respectively). Our in vitro data suggest that SCH has significant potential for clinical development.
A chequerboard titration broth microdilution method, performed according to the recommendations of the National Committee for Clinical Laboratory Standards, was applied to study the in-vitro interaction of terbinafine with amphotericin B, fluconazole and itraconazole against 30 strains of Candida albicans isolated from the oral cavities of AIDS patients. MICs were determined spectrophotometrically at 490 nm and read at either 24 h or 48 h. The end-point was defined as the drug concentration resulting in > or = 90% inhibition of growth relative to control growth. Synergy, defined as a fractional inhibitory concentration (FIC) index of < or = 0.50, was observed in 93% (28 of 30) of terbinafine-amphotericin B interactions, in 47% (14 of 30) of terbinafine-fluconazole interactions and in 43% (13 of 30) of terbinafine-itraconazole interactions; antagonism (FIC > 2.0) was not observed. Where synergy was not achieved, there was still a decrease, although not as dramatic, in the MIC of one or both drugs when used in combination. Reading the MICs on day 2 did not significantly affect the mode of interaction of terbinafine-triazoles, while for terbinafine-amphotericin B the proportion of synergic interactions dropped from 93% (28 of 30) to 30% (nine of 30; P = 0.0001). Antagonism was not observed for any drug combination even at 48 h. Minimum fungicidal concentrations (MFCs) of all drugs alone and in combination were determined against five isolates. Neither terbinafine nor the two triazoles showed fungicidal activity when tested alone or in combination. The fungicidal activity of amphotericin B was slightly enhanced when combined with terbinafine, there being a decrease of two-fold dilutions in the amphotericin B MFCs against all five isolates tested. Thus terbinafine enhances the activities of amphotericin B and triazoles against C. albicans in vitro. Clearly, clinical studies are warranted to elucidate further the potential utility of these combination therapies.
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