High colonization by Candida parapsilosis sensu stricto on hands and surfaces in an adult intensive care unit.

BACKGROUND: Yeasts of the Candida parapsilosis complex have frequently been reported as agents of fungal infection in Brazil and worldwide, most of the cases are related to hospital-acquired infection. C. parapsilosis is the third most common cause of candidemia, and the hands of hospital workers as well as hospital surfaces have been suggested as possible sources. OBJECTIVES: In this study we verified the frequency of C. parapsilosis on the hands of workers and on surfaces in the adult intensive care unit (AICU) of a tertiary hospital in Paraná-Brazil. METHODS: Surface samples were collected with swabs moistened with saline, and a plastic bag with distilled water was used to collect samples from hands. The yeasts were identified by morphology, MALDI-TOF mass spectrometry and PCR-RFLP of the secondary alcohol dehydrogenase-encoding gene (SADH) after digestion with the restriction enzyme BanI. RESULTS AND CONCLUSIONS: A total of 223 yeast were found, of which 101 (45.29%) were identified as C. parapsilosis sensu stricto. Of these, 46.66% (n=35) were found on surfaces and 44.59% (n=66) on the hands of the employees. The analysis of C. parapsilosis strains by microsatellite loci (CP1, CP4, CP6 and B5) showed 80 different genotypes. Their antifungal susceptibility profile, evaluated by the microdilution broth method, revealed that C. parapsilosis was sensitive to amphotericin B, fluconazole and voriconazole, but not to micafungin. The results revealed the heterogeneity of the yeast population, suggesting that there is no common source of contamination in the AICU of this hospital.

Radiation used for head and neck cancer increases virulence in Candida tropicalis isolated from a cancer patient.

BACKGROUND: Studies have shown that radiation from radiotherapy increases the yeast colonization of patients. However it is not clear, if such radiation alters the yeast itself. The aim of the present study was therefore to report the direct impact of gamma radiation on Candida tropicalis. METHODS: C. tropicalis was obtained from a patient with a carcinoma, a suspension of this yeast containing 2.0 × 103 colony forming units per milliliter was prepared. It was submitted to gamma radiation dosage similar to that used in the treatment of head and neck cancer. After a cumulative dose of 7200 cGy some virulence attributes of C. tropicalis, including macro and micromorphological characteristics, adhesion and biofilm abilities, murine experimental infection and phagocytosis resistance were evaluated on irradiated and non-irradiated yeasts. RESULTS: After irradiation the colony morphology of the yeast was altered from a ring format to a smooth appearance in most colonies. Scanning electron microscopy revealed notable differences in the structures of both these colonies and the yeast cells, with the loss of pseudohyphae following irradiation and an increase in extracellular matrix production. The adherence and biofilm production of the yeast was greater following irradiation, both in terms of the number of yeasts and total biomass production on several abiotic surfaces and TR146 cells. The phagocytic index of the irradiated yeasts was not statistically different; however, the presence of cellular debris was detected in the kidneys of infected animals. Mice infected with irradiated yeasts developed an infection at the site of the yeast inoculation, although systemic infection was unchanged. CONCLUSIONS: Our findings show for the first time that C. tropicalis, one of the most important yeasts from colonization, which cause fatal candidemia in cancer patients, is affected by gamma irradiation, with changes to its virulence profile.