Assessment of the Levels of Airborne Bacteria, Gram-Negative Bacteria, and Fungi in Hospital Lobbies

Park, Dong-Uk; Jeong-Kwan, Yeom; Lee, Won Jae; Lee, Kyeong-Min

doi:10.3390/ijerph10020541

Cited by 93 publications

(70 citation statements)

References 13 publications

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“…Our study observed maximum bio-load during the rainy season in different ICUs in contrast to Park et al [9], due to the location of our hospital in tropical area where extreme monsoon persists for 5-6 months in a year with the high amount of moisture and humidity in the air responsible for generation of more bio-aerosols. Similar to us, several studies demonstrated the presence of more Grampositive organisms than Gram-negative in the air of the ICUs [10].…”

Section: Discussioncontrasting

confidence: 53%

“News on Air!” - Air Surveillance Report From Intensive Care Units of a Tertiary Care Hospital

Banerjee

Mukhopadhyay

Vandana

et al. 2016

Asian J Pharm Clin Res

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Section: Discussioncontrasting

confidence: 53%

“News on Air!” - Air Surveillance Report From Intensive Care Units of a Tertiary Care Hospital

Banerjee

Mukhopadhyay

Vandana

et al. 2016

Asian J Pharm Clin Res

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“…The concentration of bioaerosols in the ORs after sterilization and disinfection might be due to high humidity (more than 60% after sterilization), occupants’ density, HEPA filters needing to be replaced, poor ventilation, air changes per hour being less than standard levels (15 h −1 ) (Dharan and Pittet, 2002; Streifel, 1999), inadequate disinfection, UV irradiation in short time (less than 2 h), and hospital building’s age. Among these factors, humidity, insufficient disinfection, UV irradiation, and the lack of proper ventilation were most responsible for the number of fungi and bacteria aerosols after sterilization (Chow and Yang, 2005; Dharan and Pittet, 2002; Friberg et al, 1999; Hoffman et al, 2002; Park et al, 2013; Tesfaye et al,2015). Park et al (2013), Tesfaye et al (2015) and Hoffman et al (2002) showed that the lack of proper ventilation, moisture, and unfiltered air were most responsible for microbial growth in hospital wards, which is in line with the findings of the present research (Dharan and Pittet, 2002; Hoffman et al, 2002; Park et al, 2013; Tesfaye et al,2015).…”

Section: Discussionmentioning

confidence: 99%

“…Moreover, fungal bioaerosols can be caused colonizing syndromes, such as nosocomial aspergillosis and allergic bronchopulmonary aspergillosis (Ortiz et al, 2009; Sohrabi et al, 2014). The presence of fungi in hospital wards, particularly ORs, is linked to several factors such as the (i) presence, condition, and activities of patients, (ii) temperature, (iii) inadequate ventilation, (iv) poor air-conditioning systems, (v) humidity, (vi) organic matter (OM) available in materials of walls, (vii) types of surgery, (viii) the season, and (ix) inadequate disinfection (Dharan and Pittet, 2002; Faure et al, 2002; Nourmoradi et al, 2012; Park et al, 2013; Sautour et al, 2007; Wan et al, 2011). The main reason for bacterial contamination in OR air is thought to be surgical site infection after operations (Dharan and Pittet, 2002; Landrin et al, 2005; Napoli et al, 2012).…”

Section: Introductionmentioning

confidence: 99%

Concentration and type of bioaerosols before and after conventional disinfection and sterilization procedures inside hospital operating rooms

Dehghani

Sorooshian

Nazmara

et al. 2018

Ecotoxicology and Environmental Safety

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Operating rooms (ORs) in hospitals are sensitive wards because patients can get infections. This work aimed to characterize the type and concentration of bioaerosols in nine ORs of an educational hospital before and after sterilization and disinfection. During 2017, fungal samples were incubated at 25–28 °C for 3–7 days and bacterial samples at 37 °C for 24–48 h. The study results showed that the concentrations of fungi before cleaning procedures (for both of disinfection and sterilization) were limited from 4.83 to 18.40 CFU/m3 and after cleaning procedures ranged from 1.90 to 8.90 CFU/m3. In addition, the concentrations of bacteria before cleaning procedures were limited 14.65–167.40 CFU/m3 and after cleaning procedures ranged from 9.50 to 38.40 CFU/m3. The difference between the mean concentrations of airborne bioaerosols before and after sterilization was significantly different than the suggested value of 30 CFU/m3 (p ≤ 0.05). The bacterial concentration was higher than the recommended value (30 CFU/m3) in 41% of the ORs. The main fungal species identified in the indoor air of ORs (before vs. after sterilization) were A. fumigatus (25.6 vs. 18.3%), A. Niger (11.6 vs. 5.8%), Penicillium spp. (5.5 vs. 3.3%), Alternaria spp. (2.8 vs. 0.7%), Fusarium spp. (9.7 vs. 3.7%), Mucor spp. (15 vs. 12.7%), Cephalotrichum spp. (1.7 vs. 0.8%), A. Flavus (24.6 vs. 18.5%), Cladosporium spp. (2.6 vs. 0.8%), and Trichoderma spp. (0 vs.0.9%). The growth of biological species even after sterilization and disinfection likely resulted from factors including poor ventilation, sweeping of OR floors, inadequate HVAC filtration, high humidity, and also lack of optimum management of infectious waste after surgery. Designing well-constructed ventilation and air-conditioning systems, replacing HEPA filters, implementing more stringent, frequent, and comprehensive disinfection procedures, and controlling temperature and humidity can help decrease bioaerosols in ORs.

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“…These can be the occupants themselves and their activities . Other factors influencing the microbial population include building maintenance, cleanliness, indoor temperature and relative humidity, type of furniture, and carpeting (Ross et al, 2004;Mandal and Brandl, 2011;Park et al, 2013).…”

Section: Introductionmentioning

confidence: 99%

Microbial Air Quality in Medical Laboratory Rooms at Benghazi Center of Infectious Diseases and Immunity

Buzayan¹,

El-Garbulli²

2017

Int.J.Curr.Res.Aca.Rev.

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Article InfoThe control of indoor air quality plays an important role in the prevention of cross infection in hospitals to protect both hospital staff and patients. This study was carried out to determine the variation in microbiota of medical laboratory at Benghazi center infectious diseases and immunity. Samples were collected by using the settled plate techniques for the enumeration of bacterial and fungal isolates. The air specimens were collected through four seasons in the morning between the hours of 9 am and 11 am from air indoor medical lab and swab samples collected from the filters of the air conditioning units in autumn, spring and summer seasons. Indoor air gram positive bacteria, accounting (99.72%) was significantly higher than that of gram negative bacteria (0.28%). The most common bacteria genus found in all seasons were Staphylococcus (46.62%) Micrococcus (27.31%), followed by Kocuria (13.42% ). The most abundant isolated bacteria in the three seasons was Bacillus circulans while Penicillium sp. was the most abundant fungi in air conditioning isolates. In indoor air samples of medical laboratory rooms showed contamination with bacteria and fungi under the acceptable levels, when compared with cited in this study. Indoor airborne bacteria and fungi concentration were depended on place of isolation and seasons.

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Assessment of the Levels of Airborne Bacteria, Gram-Negative Bacteria, and Fungi in Hospital Lobbies

Cited by 93 publications

References 13 publications

“News on Air!” - Air Surveillance Report From Intensive Care Units of a Tertiary Care Hospital

“News on Air!” - Air Surveillance Report From Intensive Care Units of a Tertiary Care Hospital

Concentration and type of bioaerosols before and after conventional disinfection and sterilization procedures inside hospital operating rooms

Microbial Air Quality in Medical Laboratory Rooms at Benghazi Center of Infectious Diseases and Immunity

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