Bacterial Contamination in Health Care Centers: Differences between Urban and Rural Settings

Monteiro, Ana; Almeida, Beatriz; Paciência, Inês; Rufo, João Cavaleiro; Ribeiro, Edna; Carolino, Elisabete; Viegas, Carla; Uva, António de Sousa; Verde, Sandra Cabo

doi:10.3390/atmos12040450

Cited by 13 publications

(8 citation statements)

References 93 publications

(118 reference statements)

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“…The great adaptability of aerial microorganisms makes them capable of proliferating in any type of environment, whether it is near an industrial center, in the city center or in a green area on the outskirts of the urban nucleus [26] [27]. Also, the results shown a positive correlation between temperature and aerobic mesophilic bacteria concentration in the urban atmosphere, previously observed by Monteiro et al (2021) [28]. Most bacteria in our samples were Gram-negative, which have lower resistance to physical destruction or desiccation, compared with Gram-positive bacteria [29].…”

Section: Discussionsupporting

confidence: 59%

Airborne Microorganisms Present in the Atmosphere in Valladolid, Spain

Rojo¹,

Rojo²,

Girbés³

2021

OJAP

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Over the past few years, research on the quality of air and microorganisms present in the atmosphere and spore composition of the environment has increased significantly, due to concerns over health risks for humans, plants, and animals. This study shows the abundance and diversity of microorganisms and the atmosphere of an urban nucleus, that is, the city of Valladolid (Spain). We considered the conditions of precipitation, humidity and wind, and the presence of some atmospheric pollutants such as nitrogen dioxide and nitrogen monoxide (NO 2 /NO), carbon monoxide (CO), sulfur dioxide, and particulate matter (PM10 and PM2.5). After their deposition present at five geographic points with different environmental conditions, differences were observed in the proportion of bacteria growth which was characterized by growth in several specific culture media. Most identified the Gram-negative bacteria identified in the air samples collected belong to the genera Staphylococcus and Streptococcus. Gram-positive bacteria were present at a low rate.

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Section: Discussionsupporting

confidence: 59%

Airborne Microorganisms Present in the Atmosphere in Valladolid, Spain

Rojo¹,

Rojo²,

Girbés³

2021

OJAP

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“…The data from Portuguese studies revealed that Staphylococcus epidermidis [45] and Micrococcus spp. [45][46][47] were the most prevalent bacteria identified. However, S. epidermidis is not considered to be a relevant risk of exposure due to its lower infections rates [34].…”

Section: Discussionmentioning

confidence: 99%

“…However, S. epidermidis is not considered to be a relevant risk of exposure due to its lower infections rates [34]. On the other hand, Acinetobacter (species not identified) was found in two studies [32,34] as a prevalent genus in a university hospital from Ethiopia, justifying its persistence due to its great survival ability in the indoor environment [47], which can be a potential cause for hospital infections transmitted via the air [48]. Another relevant microorganism is Pantoea agglomerants, which is able to infect hospitalized individuals, particularly immunodeficient patients, through contaminated medical instruments [49].…”

Section: Discussionmentioning

confidence: 99%

Exposure and Health Effects of Bacteria in Healthcare Units: An Overview

et al. 2022

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Healthcare units consist of numerous people circulating daily, such as workers, patients, and companions, and these people are vehicles for the transmission of microorganisms, such as bacteria. Bacteria species may have different allergenic, pathogenic, infectious, or toxic properties that can affect humans. Hospital settings foment the proliferation of bacteria due to characteristics present in the indoor hospital environment. This review article aims to identify the potential health effects caused by bacterial contamination in the context of healthcare units, both in patients and in workers. A search was carried out for articles published in PubMed, Web of Science and Scopus, between 1 January 2000 and 31 October 2021, using the descriptor hospital exposure assessment bacteria. This bibliographic research found a total of 13 articles. Bacteria transmission occurs mainly due to the contact between healthcare workers and patients or through the handling of/contact with contaminated instruments or surfaces. The most common bacterial contaminants are Escherichia coli, Pseudomonas aeruginosa, Staphylococcus spp., Staphylococcus aureus and Micrococcus luteus, and the principal health effects of these contaminants are hospital-acquired infections and infections in immunocompromised people. A tight control of the disinfection methods is thus required, and its frequency must be increased to remove the microbial contamination of wards, surfaces and equipment. A better understanding of seasonal variations is important to prevent peaks of contamination.

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“…In the case of passive methods, such as the surface swabs used in this study, they allow to characterize the contamination over a longer period of time (after the last cleaning procedure), thus providing a more comprehensive picture of the real exposure [46][47][48][49]. Indeed, they have previously been used in several indoor environments [46,[51][52][53][54][55][56][57][58][59][60][61] generally providing more detailed and complete information regarding fungal species distribution. The use of both sampling methods allows to overcome each method limitation, ensuring a more precise exposure assessment [44].…”

Section: Discussionmentioning

confidence: 99%

Microbiological Contamination Assessment in Higher Education Institutes

Viegas¹,

Pimenta

Dias

et al. 2021

Atmosphere

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The higher education sector represents a unique environment and it acts as a work environment, a learning environment for students, and frequently, also a home environment. The aim of this study was to determine the microbial contamination (SARS-CoV-2, fungi, and bacteria) in Higher Education Facilities (HEI) by using active and passive sampling methods and combining culture-based methods with molecular tools targeting Aspergillus section Fumigati. In addition, the resistance to azole profile was also assessed. Surface samples showed a range of total bacterial contamination between 1 × 103 to 3.1 × 106 CFU·m−2, while Gram-negative bacteria ranged from 0 to 1.9 × 104 CFU·m−2. Fungal contamination ranged from 2 × 103 to 1.8 × 105 CFU·m−2 on MEA, and from 5 × 103 to 1.7 × 105 CFU·m−2 on DG18. The most prevalent species found on both media was Cladosporium sp. (47.36% MEA; 32.33% DG18). Aspergillus genera was observed on MEA (3.21%) and DG18 (14.66%), but not in the supplemented media used for the azole screening. Aspergillus section Fumigati was detected in 2 air samples (2.22%, 2 out of 90 samples) by qPCR. When testing for SARS-CoV-2 all results were negative. The present study showed that although cleaning and disinfection procedures are done regularly due to the COVID-19 pandemic, being effective in eliminating SARS-CoV-2, surfaces were often contaminated with microorganisms other than SARS-CoV-2. This can be a result of increasing resistance to biocides, and to the wide range of environmental factors that can contribute to the dissemination of microbial contamination indoors.

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Bacterial Contamination in Health Care Centers: Differences between Urban and Rural Settings

Cited by 13 publications

References 93 publications

Airborne Microorganisms Present in the Atmosphere in Valladolid, Spain

Airborne Microorganisms Present in the Atmosphere in Valladolid, Spain

Exposure and Health Effects of Bacteria in Healthcare Units: An Overview

Microbiological Contamination Assessment in Higher Education Institutes

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