16 ml or 7 7 ml flow chambers The flow rate (F) was adjusted to

16 ml or 7.7 ml flow chambers. The flow rate (F) was adjusted to a very low rate of 1.3 ml h−1 resulting in an exchange rate of up to 180 and 6.25 times chamber volumes per 24 hours in the small and large chambers, respectively. The results of culture at a very low flow rate were markedly different from cultures in micro well plates. Low flow rates may better mimic the in vivo situation and thus may be of higher relevance for the clinical setting.

Under these conditions, a general resistance of fungal biofilms against anidulafungin cannot be confirmed. Strains of C. albicans and C. glabrata showed very uniform results whereas the C. parapsilosis group and C. lusitaniae varied from high susceptibility to resistance. Species differentiation of the C. parapsilosis group LY294002 nmr Cobimetinib manufacturer appears to be appropriate in clinical microbiological diagnostics. For the majority of the tested Candida species, anidualafungin was more effective than voriconazole. For the species C. lusitaniae and C. guilliermondii susceptibility testing should be considered prior to clinical use of echinocandin antifungals. “
“A biofilm composed of various microorganisms including Candida is found on denture surfaces and is likely to be involved in the etiology of denture-induced

stomatitis. The purpose of this study was to examine the role of hydrophobic interactions in candidal adherence to acrylic surfaces, particularly that of the hyphal form of Candida albicans. Candida clinical isolates were used. Acrylic plates coated with carrageenan and hydrocolloid (Hitachi chemical, Tokyo, Japan) were used as a hydrophilic substratum. A microbial suspension was placed on each acrylic plate and incubated. All plates were washed

very in phosphate-buffered saline containing CaCl2 and MgCl2 [PBS (+)] and cells still adhering to the acrylic surface were collected by 0.25% trypsin treatment. Cell-surface hydrophobicity was estimated using a modification of the technique used to measure adherence to hydrocarbons. When the acrylic plates were coated with hydrophilic materials, the adherence of hydrophobic clinical isolates of Candida and the hydrophobic hyphal C. albicans decreased, whereas the adherence of non-hydrophobic Candida was not affected or increased. We suggest that hydrophilic coating of denture surfaces could be a potent method for reduction of the adherence of relatively hydrophobic fungal cells, particularly hyphal C. albicans, which causes denture stomatitis and related infections. “
“This study was to develop a real-time florescence quantitative PCR (RT-FQ-PCR) assay to measure virulence-associated DEAD-box RNA helicase (VAD1) mRNA from Cryptococcus neoformans and evaluate its potential use in diagnosis and follow-up treatment of C. neoformans meningitis (CNM). Cryptococcus neoformans was detected using RT-FQ-PCR, ink staining, fungal culturing and C. neoformans antigen detection in CNM compared with a normal control.

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