Prevalência de fungos anemófilos no Brasil e a correlação com doenças respiratórias e infecções fúngicas / Prevalence of airborne fungi in Brazil and correlations with respiratory diseases and fungal infections

Resumo Fungos anemófilos se dispersam na natureza através do ar atmosférico. O presente estudo objetivou caracterizar a prevalência da microbiota fúngica anemófila no Brasil e correlacionar o crescimento fúngico com doenças respiratórias e quadros infecciosos. Este trabalho é uma revisão integrativa de literatura construída a partir da busca nas bases de dados PubMed, BIREME, SciELO e LILACS, com inclusão de trabalhos brasileiros publicados entre 2000 e 2022, em língua portuguesa ou inglesa com texto online integral. O universo do estudo foi constituído por 147 publicações, das quais 25 compuseram a amostra por atenderem aos critérios de inclusão. Os gêneros de fungos aerotransportados mais prevalentes no Brasil são: Aspergillus sp., Penicillium sp., Cladosporium sp., Curvularia sp. e Fusarium sp. Os locais de origem dos estudos incluem Maranhão, Ceará, Piauí, Sergipe, Mato Grosso, Pernambuco, Rio Grande do Sul, Santa Catarina, Rio de Janeiro, São Paulo, Minas Gerais. Além disso, foi possível determinar a relação dos fungos com parâmetros meteorológicos e sazonalidade, a sensibilização de indivíduos atópicos aos fungos e as principais micoses nosocomiais relatadas na literatura. Assim, o trabalho destaca a importância da manutenção da qualidade microbiológica do ar com vistas a se prevenir possíveis doenças transmitidas pelo ar.

Abstract Airborne fungi are dispersed through the air. The aim of this study was to determine the prevalence of airborne fungi in Brazil and understand the relationship between fungal growth and respiratory diseases and infections. We conducted an integrative literature review of studies conducted in Brazil based on searches of the PubMed, MEDLINE-BIREME, SciELO, and LILACS databases for full-text articles published between 2000 and 2022. The searches returned 147 studies, of which only 25 met the inclusion criteria. The most prevalent genera of airborne fungi in Brazil are Aspergillus, Penicillium, Cladosporium, Curvularia, and Fusarium. The studies were conducted in the states of Maranhão, Ceará, Piauí, Sergipe, Mato Grosso, Pernambuco, Rio Grande do Sul, Santa Catarina, Rio de Janeiro, São Paulo, and Minas Gerais. The findings also show the relationship between fungi and meteorological factors and seasonality, the sensitivity of atopic individuals to fungi, and the main nosocomial mycoses reported in the literature. This work demonstrates the importance of maintaining good microbiological air quality to prevent potential airborne diseases.

Microbial concentration and particle size distribution characteristics of indoor air in colleges and universities in winter / 中国学校卫生

Objective@#To understand the microbial pollution of indoor air in colleges and universities, and to provide a reference for controlling microbial pollution and improving indoor air quality.@*Methods@#In November 2018, the air microorganisms in different functional areas and at different times were sampled and cultured in a university in Beijing by Anderson’s six-level sampler.@*Results@#During the test, there were differences in microbial aerosol concentrations in different functional areas and at different times(F=3.99，7.77, P<0.05), the concentration of bacteria in toilets was relatively high, the average concentration was 659 CFU/m3 and the concentration of fungi in the campus was relatively high, the average concentration was 660 CFU/m3; the concentration of bacteria and fungi in the air at 12 o’clock noon was relatively low, the average concentration was 320 CFU/m3 and 322 CFU/m3. The particle size distribution of microorganisms in the air presents roughly the same law, and the peak concentration of microbial concentrations occurs at the Ⅳ and Ⅴ levels (1.1-3.3 μm), in which the highest concentration of bacteria (253 CFU/m3) appears at the Ⅴ level, and the highest concentration of fungi (249 CFU/m3) appears at the Ⅳ level.@*Conclusion@#The microbial concentration in the air of colleges and universities was mainly concentrated in the size of 1.1-3.3 μm, and it was necessary to take targeted comprehensive control measures to effectively improve air quality.

Air microorganisms in soldier living quarters of an underground tunnel during air-tight survival training:investigation and analysis / 军事医学

Objective To investigate the distribution of air microorganisms in soldies′living quarters of one under-ground tunnel during airtight survival training .Methods Anderson sampling was carried out in Area A and Area B ( living quarters) and Area C (a toilet) at designated time and place.After sampling, the culture and identification of microorgan-isms were finished .Results ①In the living quarters of the whole underground tunnel , the total number of bacteria ranged from 125 to 37 800/m3,but it was 2692, 1844 and 2199/m3, respectively in Area A, B and C.The mean number of bac-teria was 2245/m3 .The number of fungi ranged from 0 to 10 017/m3 .The total number of fungi of Area A , B and C was 1064 , 883 and 1011/m3 .The mean number was 986/m3 .②The number of bacteria in the living areas presented three fea-tures:the total bacteria showed overall three peaksin Area A and B, buttwin peaksin Area C.In Area A and B, the number of bacteria exhibited low colony at first but fluctuated heavily later .In Area C, it decreased gradually to the mini-mum,and the fungi showed a wavy and irregular trend .③The air microbial species included cocci ( Micrococcus, Coriolis of Staphylococcus aureus, S.epidermidis and S.equorum) , bacilli ( Acinetobacter baumannii, A.lwoffii and Alcaligenes faeca-lis),and fungi (Mucor and Saccharomyces).Conclusion Although the content of microorganisms was up to the military hygiene standards , it was higher than in the same kind of tunnels .Themulti peakphenomenon of microbial distribution suggests that the change of air microorganisms in tunnels has its own characteristics .Most of the air microorganisms are con-ditioned pathogens that may cause illness if they are not under control .

A ventilação de furadeiras elétricas constitui fonte de contaminação para a cirurgia? / Is ordinary eletric drills' venting port a potencial source of surgical infection?

OBJETIVO: Avaliar o risco de contaminação operatória pela ventilação do motor de furadeiras elétricas (FE) durante a perfuração óssea em cirurgias ortopédicas. MATERIAIS E MÉTODOS: estudo experimental, laboratorial, randomizado analisou FE da prática clínica e FE novas (limpas e esterilizadas) submetidas à contaminação com esporos de Bacillus atrophaeus na concentração 84 x 10(6) UFC. O ar gerado pelo acionamento do motor da FE foi coletado e cultivado. RESULTADOS: Foram identificadas apenas duas culturas positivas para as FE da prática clínica, assim como uma cultura positiva para o Bacillus atrophaeus com crescimento de 1UFC (1,19 x 10(8)). CONCLUSÃO: nas condições do estudo, pode-se afirmar que o ar gerado pela ventilação do motor da FE não consiste em fonte de contaminação para o sítio cirúrgico.

OBJECTIVE: To evaluate the potential risk of surgical contamination by the venting port of ordinary electric drills (ED) employed in orthopaedic surgeries. MATERIALS AND METHODS: an experimental laboratory, randomized study was developed to analyze EDs in surgical practice and new cleaned and sterilized equipment, which were contaminated with Bacillus atrophaeus spores at a concentration of 84 X 10(6) UFC. The air generated by the engine of each drill was collected and cultivated on sterile agar plates. RESULTS: Positive culture was identified in two ED in surgical practice, as well as a positive culture to Bacillus atrophaeus with 1 CFU growth (1,19 X 10-8). CONCLUSION: In the conditions of the experiment, the airgenerated by the venting port of the ED's engine does not consist of a source of contamination for the surgical site.

A Study of Airborne Microbes in the NSICU According to Number of Persons Who Pass through Every Hour / 기본간호학회지

PURPOSE: The purpose of this study was to analyze the colony count of airborne microbes contamination every hour in the Neurosurgical Intensive Care Unit (NSICU) in order to identify the relationship of colony count to person-visits. METHODS: Data were collected during from 11:00 a.m. September 5 to 11:00 a.m. September 6, 2002. This study used blood agar & nutrient agar and handtally counter (USA) for collection of airborne microbes and number of person-visits. Data was analyzed using the SPSSWIN 10.0 with means, Pearson correlation coefficient, and simple regression. RESULTS: The result of this study are as follows. Total colony count of airborne microbes for 24 hours in the NSICU was 4,609. Total number of person-visits to the NSICU was 15,347. The highest scores for the total colony count in different areas of the NSICU was the rear door, followed by the preparation room, and the front entrance, while the lowest count was in the isolation rooms. There was a statistically significant relationship between colony count and number of person-visits to the NSICU. The most frequently airborne microbes in the NSICU were Micrococcus, CNS, Staphylococcus Micrococcus, Aureus. CONCLUSION: These findings indicate that the number of person-visits in hospitals influences total colony count of airborne microbes. This study contributes to assessment of biological indoor air quality in hospital and in the development of an NSICU care plan.

Characteristics of Outdoor Air Microbes Pollution in Hefei City / 环境与健康杂志

Objective To understand the air microorganisms pollution and the community structure and distribution characteristics of outdoor airborne microbes in Hefei. Methods Airborne microbes were sampled by fallen plate method at 10 collection sites in the Hefei city. Results The results showed that the average concentration of the bacteria,fungi and total microbes in the outdoor environment were 5.04?104,3.75?103 and 5.41?104 cfu/m3 respectively and the fungi accounted for 6.92%of the total. The preliminary identification showed that the dominant bacteria mainly were Micrococcus, Bacillus, Pseudomonas and Staphylococcus and the average percentage were 37.3%, 21.0%, 10.3% and 9.5% respectively. Of the five fungi the dominant ones were Aspergillum, Penicillium, Mucor and Rhizopu. The average percentage were 42.0%,36.0%,4.4% and 4.2% respectively. Conclusion The outdoor air of Hefei has been polluted by airborne microbes. The distribution of the airborne microbes has the characteristics of time and space.It is affected not only by the environment and pollution,but also by such factors as human activities,animals and plants.

Dynamic Monitoring of Microorganism in Air of Jiujiang City / 环境与健康杂志

3:00.Conclusion The peak of the total count of bacteria in air of Jiujiang was found in industry-shopping-traffic-mixed quarter in summer only one time everyday.

Air Disinfection with Chlorine Dioxide in Saps / 环境与健康杂志

Objective To observe the effect of air disinfection with chlorine dioxide(ClO2)in the saps and determine the concentration change in order to ensure the safety for people to enter the saps.Methods The disinfection was done at the concentration of 1 000 mg/L and the spray dose of 10 ml/m3 and then to count the total bacteria and fungi with the cascade impactors in the saps before and after air disinfection and to monitor the concentration of ClO2 with the air ClO2 monitor(iTX).Results The 94.6% of the total bacteria and 92.1% of the fungi died in 30 minutes after disinfection.The concentration of ClO2 in the air decreased from 10 mg/m3 to 0.8 mg/m3 81 minutes later and to 0.3 mg/m3 96 minutes later,after 120 minutes,it was 0 mg/m3.Conclusion The air disinfection effect of ClO2 used at the dose of 10 ml/m3 and the concentration of 1 000 mg/L is satisfactory.96 minutes after disinfection,the concentration of ClO2 is safe for human health.

Investigation of Air Bacteria Pollution of Markets in Guangzhou / 环境与健康杂志

Objective To investigate air bacteria pollution and the rule of microbes spread in some markets in Guangzhou, aiming at prevention and forecast airborne pathogenic microbes. Bacteria and Staphylococcus aureus were collected to provide reference on evaluation and of the spread of through the air in public. Methods Gravity exposure of microbial media plates was used to sample the airborne bacteria in eight different markets in Guangzhou on a given day, from 2003 to 2005. The simulated experiment in the laboratory was conducted based on the results of natural sampling stations. Results Samples taken at different times showed wide variations with quantities of airborne bacteria (total count) and Staphylococcus aureus ranged from 95 to 1.5?104 cfu per petri dish and from 2 to 1.2?104 cfu per petri dish respectively. Movement of airborne bacteria in the market obeyed quadratic equation pattern. The spread distance of airborne bacteria was among 24 to 26 meters. Maximum airborne bacteria were detected from 17:00 o'clock to 19:00 o'clock in a day. Conclusion The count of market airborne bacteria is markedly more than the limits stipulated in the related national standard GB 9670-1996. Live fowls sold in the markets are the main carriers of bacteria and the potential pollution resource of pathogenic bacteria.

Investigation of Indoor Air Microorganism Pollution in Campus / 环境与健康杂志

Objective To understand the microorganism pollution in the indoor air in the campus of Liaocheng University. Methods In April and May, 2004, the content of airborne microbes in the indoor air in Liaocheng University campus was determined by the gravity plate method. Results The average content of bacteria in the indoor air was 2.39?103 cfu/m3, the average content of mildew was 0.62?103 cfu/m3. The predominant microorganism in the internet bars in the campus was bacteria. Conclusion In general, the indoor air quality in Liaocheng University campus is at comparative clear level.