Background: Indoor air quality in environments where there is great circulation of people, posing risks to the health of its occupants, including allergic problems, infections and contaminations, can be aided by climatic factors, chemicals and biological agents housed in these environments, influencing the location and providing favorable conditions for the degradation of bibliographic collections. The present study investigated the presence of fungi in indoor environments in seven public and private libraries in the central region of Brazil, Mato Grosso, and verified the impact on occupational health. Results: A total of 26,194 fungal specimens were isolated from 342 dust samples collected using three techniques: Andersen's sampler (12.3%), exposure plate dish (25.1%) and sterile swab (62.6%). A total of 184 fungal species were identified: 156 (84.8%) mycelial fungi and 28 (15.2%) yeast fungi, belonging 54 fungal genera, 43 (79.6%) mycelial fungi and 11 (20.4%) yeast fungi. The genus Aspergillus (40.6%) was one of the main fungi present in indoor air. Aspergillus niger (12.3%) was identified as the most prevalent species in literary environments, followed by Cryptococcus spp. (7.1%) and Cladosporium cladosporioides (7.0%). In relation to seasonal distribution, there was a greater fungal isolation in the dry season (54%); followed by the rainy season (46%). Conclusion: These results suggest the substrates researched in the evaluated environments presented in the form of documents, books and papers associated with dust and air humidity become suitable for microbiological proliferation. These findings highlight the importance of minimizing the risk of exposure to fungal agents, identified in pathogenic and toxigenic microenvironments in library collections.
Dermatophyte infections are common disorders in tropical countries. These infections lead to a variety of clinical manifestations. This study reports the incidence of dermatophytosis in the military personnel in the Central-West Region of Brazil. The occupational activities of the military individuals, in addition to the hot and humid climate of the region, can predispose them to infection by these fungal entities.
Introduction: Atmospheric air is the most common vehicle for the dispersion of fungi. Fungi belonging to the genera Aspergillus and Penicillium are cosmopolitan and are classified in the family Trichocomaceae. Species of the genera are commonly found in soil, decaying organic materials, animal feed, stored grains, and other materials. This study aimed to determine the taxonomic diversity of airborne fungi of the genera Aspergillus and Penicillium residing in the dust of library environments to contribute to current knowledge of these characteristic genera. Methodology: Three libraries in the city of Cuiaba, State of Mato Grosso, Brazil, were selected as the study areas. A total of 168 samples were collected at randomized sites within each library in areas containing journals, archives, in study rooms, and in collection storage areas in two different periods, the dry season (n = 42) and the rainy season (n = 42). Samples were collected by exposing Petri dishes containing Sabouraud agar with chloramphenicol to the environmental air. Additional samples were collected with sterile swabs which were rubbed over the surface of randomly chosen books on the shelves; the swabs were subsequently incubated in the laboratory. Results and conclusion: The genus Aspergillus was highlighted as one of the principal airborne fungi present in indoor environments. Aspergillus spp was identified in 1,277 (89.6%) samples and Penicillium spp in 148 (10.4%). The dry period exhibited a greater number of isolates of the two taxons.
To evaluate fungal microbiota in air-conditioning units installed in intensive care units in two university hospitals in Cuiaba city, Mato Grosso, central western region of Brazil, 525 solid environmental samples were collected, 285 from Hospital A and 240 from Hospital B. Collections were performed using sterile swabs on air-conditioning unit components: cooling coils, ventilators, and filters. Mycelial fungi identification was achieved by observation of the macroscopic and micromorphological characteristics in different culture mediums (maize meal, oatmeal and potato dextrose agars and malt extract) using the Ridell technique. Eleven genera and 27 distinct species belonging to the hyphomycetes and ascomycetes classes were isolated and identified. The most frequently detected genera in both hospitals were Aspergillus spp, Penicillium spp, and Cladosporium spp. Values for colony-forming units per gram were 64 and 75%, well above the limits recommended by Health Ministry resolution 176/00 at the locations selected for analysis in Hospitals A and B, respectively. In conclusion, evaluation of fungal microbiota in the air-conditioning units indirectly determined that the air quality was compromised in both university hospitals analyzed, which constitutes a risk factor for the acquisition of infection in the intensive care units.
Introduction: The knowledge about fungal diversity in Mato Grosso, central Brazil records unknown and scattered information, some related to taxonomy, ecology and description of species listed for the geographic region, consisting of three main biomes: Cerrado, Amazon and Pantanal. Aims: To present fungi related to the Mato Grosso region, aspects and species cataloged for central region of Brazil, reported through an extensive review of integrative scientific literature in publications in databases from 1979-2021. Results: We identified 190 articles included in the review, of which 69 (36.3%) were highlighted, due to their fungal aspects for the Midwest region of Brazil, medical mycology shows a strong relationship in publications to pathogenic, mycelial and yeast fungi. The Cerrado of Mato Grosso is the main biome in the Brazilian Midwest, with the largest number of records, with 88.6% of the findings, followed by the Amazon biome with 8.6% and the Pantanal with 5.7%. The capital of Mato Grosso, Cuiabá (67.1%), contributes with most publications relevant to fungi for the Midwest region, showing a wealth and variety. The phylum Ascomycota (56%) had the highest number of records in research, the class of Eurotiomycetes (21.5%) had the highest number of records and the most expressive order was that of Onygenales (30%). Researches with human clinical material (66.3%) were the most representative. Conclusion: Assessing the results presented in this study, we can observe that the medical and clinical mycology, including systemic fungi, mainly from the genera Cryptococcus, Candida and Paracoccidioides, were the most studied for the Mato Grosso region, as they present characteristics of pathogenic fungal entities that cause infections in immunocompetents and immunocompromised patients.
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