Abstract
BackgroundExpressed human milk (EHM) feed preparation areas represent a potential source of unintentional nosocomial infection. Daily disinfection of environmental surfaces remains an essential intervention to mitigate nosocomial infections. The inefficiency of conventional cleaning and disinfection contributes to an increased risk for the acquisition of multi-drug resistant pathogens. “Non touch” technologies such as the pulsed xenon ultraviolet (PX-UVD) light device have documented sustained reduction in surface bacterial colonization and reduced cross contamination.MethodsThe impact of a PX-UVD on surface colony forming units per square centimeter (cfu/cm2) in feed preparation areas was evaluated following its implementation as standard care. A quasi-experimental study was performed documenting bacterial colonization from 6 high risk feed preparation areas in a community care hospital in South Africa. Pre and post conventional cleaning neutralizing rinse swabs were collected fortnightly over a 16 week control period prior to the introduction of the PX-UVD and compared to a matching set of samples for the PX-UVD period.ResultsA 90% reduction in total surface bioburden was noted from the control period (544 cfu/cm2) compared to the corresponding PX-UVD period (50 cfu/cm2). Sub -analysis of both the Pre-clean Control: Pre-clean PX-UVD counts as well as the Post-clean Control: Post-clean PX-UVD counts noted significant improvements (p < 0.001). A statistically significant improvement was noted between pre-and post-cleaning total surface bioburden following exposure to the PX-UVD (p = 0.0004). The introduction of the PX-UVD was associated with a sustained reduction in the pre clean bioburden counts with a risk trend (per week) 0.19, (95% CI [0.056, 0.67], p = 0.01).DiscussionThe use of a PX-UVD as adjunct to standard cleaning protocols was associated with a significant decrease in surface bioburden. The study demonstrated the inefficiency of conventional cleaning. Persistence of potentially pathological species in both periods highlights current health sector challenges.
Highlights
Expressed human milk (EHM) feed preparation areas represent a potential source of unintentional nosocomial infection
A 90% reduction in total surface bioburden was noted from the control period (544 cfu/cm2) compared to the corresponding Pulsed xenon ultraviolet light device (PX-UVD) period (50 cfu/cm2)
Pre cleaning surface bioburden significantly improved from 244 cfu/cm2 in the CONTROL period to 44 cfu/cm2 in the PX-UVD period with a geometric mean risk ratio 0.11
Summary
Expressed human milk (EHM) feed preparation areas represent a potential source of unintentional nosocomial infection. A statistically significant improvement was noted between pre-and post-cleaning total surface bioburden following exposure to the PX-UVD (p = 0.0004). Expressed human milk (EHM) feed preparation areas remain an integral aspect of neonatal intensive care as well as pediatric critical care units, and are common place in any hospital setting. These areas represent a key source of infection and contamination resulting in unintentional nosocomial infections [1, 2]. The inclusion of “non touch” room disinfection technology represents a proven adjunct to any facility’s disinfection SOP aimed at addressing potential shortcomings [6]
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