Factors contributing to airborne particle dispersal in the operating room

Noguchi, Chieko; Koseki, Haruhiko; Horiuchi, Hidehiko; Yonekura, Akihiko; Tomita, Masato; Higuchi, Takashi; Sunagawa, Shinya; Osaki, Makoto

doi:10.1186/s12893-017-0275-1

Cited by 33 publications

(30 citation statements)

References 28 publications

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“…Nevertheless, 77% of the deaths following complications from surgery were reported to be related to SSI [ 33 ]. Recent studies have revealed that a large number of airborne particles are produced during typical actions by the surgical staff such as unfolding the surgical gown, removal of gloves and placing arms through the sleeves of the gowns [ 20 ]. Therefore, it can be envisioned that continuous use of far-UVC light during surgical procedures might be an advantageous approach to inactivate bacteria as they alight on the wound [ 1 ], thus preventing infection as well as the formations of bacterial clusters or biofilms.…”

Section: Discussionmentioning

confidence: 99%

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Far-UVC light prevents MRSA infection of superficial wounds in vivo

et al. 2018

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BackgroundPrevention of superficial surgical wound infections from drug-resistant bacteria such as methicillin resistant Staphylococcus aureus (MRSA) currently present major health care challenges. The majority of surgical site infections (SSI) are believed to be caused by airborne transmission of bacteria alighting onto the wound during surgical procedures. We have previously shown that far-ultraviolet C light in the wavelength range of 207–222 nm is significantly harmful to bacteria, but without damaging mammalian cells and tissues. It is important that the lamp be fitted with a filter to remove light emitted at wavelengths longer than 230 nm which are harmful.AimsUsing a hairless mouse model of infection of superficial wounds, here we tested the hypothesis that 222-nm light kills MRSA alighting onto a superficial skin incisions as efficiently as typical germicidal light (254 nm), but without inducing skin damage.MethodsTo simulate the scenario wherein incisions are infected during surgical procedures as pathogens in the room alight on a wound, MRSA was spread on a defined area of the mouse dorsal skin; the infected skin was then exposed to UVC light (222 nm or 254 nm) followed by a superficial incision within the defined area, which was immediately sutured. Two and seven days post procedure, bactericidal efficacy was measured as MRSA colony formation unit (CFU) per gram of harvested skin whereas fixed samples were used to assess skin damage measured in terms of epidermal thickness and DNA photodamage.ResultsIn the circumstance of superficial incisions infected with bacteria alighting onto the wound, 222-nm light showed the same bactericidal properties of 254-nm light but without the associated skin damage.ConclusionsBeing safe for patient and hospital staff, our results suggested that far-UVC light (222 nm) might be a convenient approach to prevent transmission of drug-resistant infectious agents in the clinical setting.

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Section: Discussionmentioning

confidence: 99%

“…To mimic the scenario wherein incisions are infected during surgical procedures as bacteria in the room alight on the skin, we developed a mouse protocol in which MRSA was spread on a defined area of the skin and then exposed to UVC light [ 20 ]. We measured bactericidal efficacy (CFU/g) and effects on skin (i.e.…”

Section: Introductionmentioning

confidence: 99%

Far-UVC light prevents MRSA infection of superficial wounds in vivo

et al. 2018

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“…Potentially pathogenic bacteria and moulds were never detected in the surfaces or in the air. The findings of the study are indicative of the efficacy of the cleaning-sanitization procedures adopted, as well as of the appropriate characteristics of the ventilation system which plays a fundamental role in maintaining a low microbial contamination level in operating rooms [ 18 , 19 ].…”

Section: Discussionmentioning

confidence: 99%

Surveillance of Environmental and Procedural Measures of Infection Control in the Operating Theatre Setting

Dallolio

Raggi

Sanna

et al. 2017

IJERPH

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The microbiological contamination of operating theatres and the lack of adherence to best practices by surgical staff represent some of the factors affecting Surgical Site Infections (SSIs). The aim of the present study was to assess the microbiological quality of operating settings and the staff compliance to the SSI evidence-based control measures. Ten operating rooms were examined for microbiological contamination of air and surfaces, after cleaning procedures, in “at rest” conditions. Furthermore, 10 surgical operations were monitored to assess staff compliance to the recommended practices. None of the air samples exceeded microbiological reference standards and only six of the 200 surface samples (3.0%) were slightly above recommended levels. Potentially pathogenic bacteria and moulds were never detected. Staff compliance to best practices varied depending on the type of behaviour investigated and the role of the operator. The major not compliant behaviours were: pre-operative skin antisepsis, crowding of the operating room and hand hygiene of the anaesthetist. The good environmental microbiological quality observed is indicative of the efficacy of the cleaning-sanitization procedures adopted. The major critical point was staff compliance to recommended practices. Awareness campaigns are therefore necessary, aimed at improving the organisation of work so as to facilitate compliance to operative protocols.

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“…Certain activities in the OR can increase airborne contaminants. Noguchi et al 22 measured the APC using a laser particle counter during three patterns of physical movement to mimic intraoperative actions during orthopedic surgery. The investigators reported a high APC during the unfolding of the surgical gowns, glove removal, and arm insertion through the sleeves of gowns.…”

Section: Airborne Sources and Control Of Contaminantsmentioning

confidence: 99%

“…Airborne or aerosolized particles, which can carry microorganisms, can be measured using a counter that reports the air-particulate count (APC), using a microbiologic aircollection device that reports colony-forming units (CFUs), and by culturing the air (eg, with agar plates). [6][7][8]10,[20][21][22][23][24][25][26] Microorganisms that researchers have identified in OR air include Staphylococcus aureus, Staphylococcus epidermidis, Bacillus species, and Streptococcus species. 23 Sources for airborne contaminants can be human skin squames, respiratory aerosols, and dust containing microbial particles.…”

Section: Airborne Sources and Control Of Contaminantsmentioning

confidence: 99%

Minimizing Sources of Airborne, Aerosolized, and Contact Contaminants in the OR Environment

Armellino¹

2017

AORN Journal

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Surgical site infections are unintended consequences of surgery that can cause harm to patients and place financial burdens on health care organizations. Extrinsic factors in the OR-including health care providers' behavior and practices that modify air movement, the physical environment, equipment, or surgical instruments-can increase microbial contamination. Microbes can be transported into the surgical incision by airborne or contact routes and contribute to a surgical site infection. Simple practices to prevent infection-such as minimizing airborne particles and contaminants, maintaining equipment according to the manufacturer's recommendations, cleaning and disinfecting the environment and surgical instruments, and performing proper hand hygiene-can reduce the degree of microbial contamination. Perioperative leaders and health care providers can help decrease the patient's risk of surgical site infection with proactive preventive practices that break the chain of infection.

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Factors contributing to airborne particle dispersal in the operating room

Cited by 33 publications

References 28 publications

Far-UVC light prevents MRSA infection of superficial wounds in vivo

Far-UVC light prevents MRSA infection of superficial wounds in vivo

Surveillance of Environmental and Procedural Measures of Infection Control in the Operating Theatre Setting

Minimizing Sources of Airborne, Aerosolized, and Contact Contaminants in the OR Environment

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