Assessment of Airborne Culturable Fungal Load in an Indoor Environment of Dormitory Rooms: The Case of University of Gondar Student’s Dormitory Rooms, Northwest Ethiopia

Andualem, Zewudu; Ayenew, Yeshambel; Ababu, Temesel; Hailu, Betelhem

doi:10.1177/1178622120933553

Cited by 7 publications

(8 citation statements)

References 25 publications

(33 reference statements)

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“…Bacterial contamination of inanimate surfaces and equipment is problematic to overcome as it can serve as a reservoir for an unlimited period through a gradual cross-transmission of pathogens and subsequent contact with patients and HCWs at a time of disease management [8]. It can be caused by a range of bacterial (both Gram-positive and Gram-negative isolates) and fungal species [9][10][11][12]. A highly virulent pathogen such as Staphylococcus aureus (Methicillin-resistant Staphylococcus aureus or MRSA), Coagulase-negative Staphylococci (CoNS), Enterococcus species (vancomycin-resistant Enterococci), Escherichia coli, Klebsiella pneumoniae, Pseudomonas aeruginosa, Clostridium difficile, and Acinetobacter baumannii are capable of harbouring on contaminated inanimate surfaces and medical apparatus [5].…”

Section: Introductionmentioning

confidence: 99%

Bacterial Pathogens and Their Antimicrobial Resistance Patterns of Inanimate Surfaces and Equipment in Ethiopia: A Systematic Review and Meta-analysis

Kiros

Damtie

Eyayu

et al. 2021

BioMed Research International

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Background. Hospital-acquired infections have remained a serious cause of mortality, morbidity, and extended hospitalization. Bacterial contamination of inanimate surfaces of the hospital environment and equipment is considered a major contributing factor to the development of several nosocomial infections worldwide. The hospital environment and many devices are an important reservoir of many clinically important bacterial agents including multidrug-resistant pathogens. Therefore, this systematic review and meta-analysis are aimed at investigating bacterial pathogens and their antimicrobial resistance patterns of inanimate surfaces and equipment in Ethiopia. Methods. An exhaustive literature search was carried out using the major electronic databases including PubMed, Web of Science, MEDLINE, EMBASE, CINAHL, Google Scholar, Cochrane Library, Scopus, and Wiley online library to identify potentially relevant studies without date restriction. Original articles which address the research question were identified, screened, and included using the PRISMA flow diagram. Data extraction was prepared in Microsoft Excel, and data quality was assessed by using 9-point Joanna Briggs Institute critical appraisal tools. Then, data were exported to STATA 16.0 software for analyses of pooled estimation of outcome measures. Estimation of outcome measures at a 95% confidence interval was performed using DerSimonian-Laird’s random-effects model. Finally, results were presented via text, figures, and tables. Results. A total of 18 studies with 3058 bacterial isolates recovered from 3423 swab specimens were included for systematic review and meta-analysis. The pooled prevalence of bacterial contamination of inanimate surfaces and equipment was found 70% (95% CI: 59, 82). Among the Gram-negative bacterial species, the prevalence of ampicillin-resistant K. pneumoniae was the highest 80% (95% CI: 78, 92) followed by Citrobacter species 78% (95% CI: 57, 83). Conclusion. This study has shown a high prevalence of bacterial contamination of inanimate surfaces and equipment in Ethiopia.

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Section: Introductionmentioning

confidence: 99%

Bacterial Pathogens and Their Antimicrobial Resistance Patterns of Inanimate Surfaces and Equipment in Ethiopia: A Systematic Review and Meta-analysis

Kiros

Damtie

Eyayu

et al. 2021

BioMed Research International

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“…The identified genus are the most common listed in literature for indoor and outdoor areas in urban environments (Andualem et al, 2020;Pyrri and Kapsanaki-Gotsi, 2017;Fang et al, 2019). Consequently, the environmental impact caused by the increase of vehicles and industries in the urban area may induce to diversity loss (Newbound et al, 2010;Abrego et al, 2020;Bezerra et al, 2014).…”

Section: Resultsmentioning

confidence: 99%

Air pollution and its impact on the concentration of airborne fungi in the megacity of São Paulo, Brazil

Silva

Marcusso

Barbosa

et al. 2020

Heliyon

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In the context of megacities in an urban environment, air quality is an important issue, due to the direct correlation to population's health. The biomonitoring of pollutants can indicate subtle environmental alterations, for that, anemophilous fungi can be monitored for changes in atmospheric conditions related to pollution. In the present study, the concentration of fungi and bacteria in the atmosphere was measured during a specific vehicle fleet reduction in the city of São Paulo, Brazil, from May 24 to 30, 2018, using impactor air samplers. The number of isolated developed colonies was related to atmospheric conditions and the concentration of other air pollutants constantly monitored. Aspergillus, Curvularia, Penicillium, Neurospora, Rhizopus and Trichoderm a were identified. The number of colony-forming units increased by approximately 80% during the sampling period in response to environmental changes favored by the fleet reduction. This result implies the relation between fuel emissions, concentration of atmospheric pollutants, and the presence of viable fungal spores in the urban environment, which highlights the importance of combined public policies for air quality in large cities.

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“…At present, regarding the fungal loading of the museum indoor air, there are no regulations or standards, therefore; certain indicative norms were used, established based on studies in order to assess the air contamination degree in the rooms. According to European Commission's health standards [67,68], the degree of fungal contamination is determined depending on CFU/m 3 air, as follows: Very low-<25 CFU/m 3 , Low-25-100 CFU/m 3 , Medium-100-500 CFU/m 3 , High-500-2000 CFU/m 3 , Very high->2000 CFU/m 3 . In the case of the museum in Beius, the average number of CFU/m 3 air falls, depending on the area, between 200 and over 2000 (Figure 8A).…”

Section: Determination Of Fungal Load In the Air And On The Exhibitsmentioning

confidence: 99%

Museal Indoor Air Quality and Public Health: An Integrated Approach for Exhibits Preservation and Ensuring Human Health

et al. 2022

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The quality of the indoor microclimate in museums is a problem of great interest to the contemporary society, given that it is in close connection with the health and comfort of visitors and employees, as well as with the integrity of the exhibits. Taking into account the fact that museums are places that have a special role in the community’s life and therefore attract a very large number of visitors of all ages, a very important issue is to determine the degree of safety that the indoor microclimate presents. Thus, the quality of the indoor microclimate was investigated inside an iconic museum in Romania, dating back to the 19th century, because pollutants from external or internal sources of the building, generated secondary, often anthropogenic, as a tendency to defend/adapt to climate change (CC), contribute to both local and regional pollution, but also lead to challenges in identifying links between air quality (AQ) and and climate change (CC). The methodology used was based on monitoring the main parameters of the microclimate (temperature, relative humidity and CO2) over a period of between October 2020 and March 2021, 21 weeks, as well as on determining the microbiological contamination of the air and some indoor exhibits located in three different areas of the museum. At the same time, the study aims to identify cheap, easy to implement and non-invasive solutions for removing fungi identified on exhibits for long-term preservation and reducing the risk of various pathologies in humans following prolonged exposure. The results obtained show that the indoor microclimate in the old heritage building favours the development of fungi, which have a high degree of contamination of the air (over 800 CFU/m3) and of the exhibits, representing a potential risk for the health of the visitors and museum workers. Thus, six species of yeast and five different fungi genera were identified in the air, while on the exhibits were individualised six fungi genera, a species of yeast and a bacterium. The most viable solution for cleaning materials, prolonging their lifespan and reducing the risk of disease in humans was represented by the use of essential oils (EO). Three essential oils (lavender, mint and lemon) were applied on an exhibit with five different microorganism genera, and it was observed that they have the ability to inhibit the spores from moulds and bacteria, being a very good alternative to the usual chemical treatments that are used in the cultural heritage field.

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Assessment of Airborne Culturable Fungal Load in an Indoor Environment of Dormitory Rooms: The Case of University of Gondar Student’s Dormitory Rooms, Northwest Ethiopia

Cited by 7 publications

References 25 publications

Bacterial Pathogens and Their Antimicrobial Resistance Patterns of Inanimate Surfaces and Equipment in Ethiopia: A Systematic Review and Meta-analysis

Bacterial Pathogens and Their Antimicrobial Resistance Patterns of Inanimate Surfaces and Equipment in Ethiopia: A Systematic Review and Meta-analysis

Air pollution and its impact on the concentration of airborne fungi in the megacity of São Paulo, Brazil

Museal Indoor Air Quality and Public Health: An Integrated Approach for Exhibits Preservation and Ensuring Human Health

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