TY - JOUR
T1 - Effect of pulsed xenon ultraviolet room disinfection devices on microbial counts for methicillin-resistant Staphylococcus aureus and aerobic bacterial colonies
AU - Zeber, John E.
AU - Pfeiffer, Christopher
AU - Baddley, John W.
AU - Cadena-Zuluaga, Jose
AU - Stock, Eileen M.
AU - Copeland, Laurel A.
AU - Hendricks, Janet
AU - Mohammadi, Jwan
AU - Restrepo, Marcos
AU - Jinadatha, Chetan
N1 - Publisher Copyright:
© 2018
PY - 2018/6
Y1 - 2018/6
N2 - Background: Inadequate environmental disinfection represents a serious risk for health care–associated infections. Technologic advancements in disinfection practices, including no-touch devices, offer significant promise to improve infection control. We evaluated one such device, portable pulsed xenon ultraviolet (PX-UV) units, on microbial burden during an implementation trial across 4 Veterans Affairs hospitals. Methods: Environmental samples were collected before and after terminal room cleaning: 2 facilities incorporated PX-UV disinfection into their cleaning protocols and 2 practiced manual disinfection only. Specimens from 5 high-touch surfaces were collected from rooms harboring methicillin-resistant Staphylococcus aureus (MRSA) or aerobic bacteria colonies (ABC). Unadjusted pre-post count reductions and negative binomial regression modeled PX-UV versus manual cleaning alone. Results: Seventy samples were collected. Overall, PX-UV reduced MRSA and ABC counts by 75.3% and 84.1%, respectively, versus only 25%-30% at control sites. Adjusting for baseline counts, manually cleaned rooms had significantly higher residual levels than PX-UV sites. Combined analyses revealed an incident rate ratio of 5.32 (P =.0024), with bedrails, tray tables, and toilet handrails also showing statistically superior PX-UV disinfection. Conclusions: This multicenter study demonstrates significantly reduced disinfection across several common pathogens in facilities using PX-UV devices. Clinical impact of laboratory reductions on infection rates was not assessed, representing a critical future research question. However, such approaches to routine cleaning suggest a practical strategy when integrated into daily hospital operations.
AB - Background: Inadequate environmental disinfection represents a serious risk for health care–associated infections. Technologic advancements in disinfection practices, including no-touch devices, offer significant promise to improve infection control. We evaluated one such device, portable pulsed xenon ultraviolet (PX-UV) units, on microbial burden during an implementation trial across 4 Veterans Affairs hospitals. Methods: Environmental samples were collected before and after terminal room cleaning: 2 facilities incorporated PX-UV disinfection into their cleaning protocols and 2 practiced manual disinfection only. Specimens from 5 high-touch surfaces were collected from rooms harboring methicillin-resistant Staphylococcus aureus (MRSA) or aerobic bacteria colonies (ABC). Unadjusted pre-post count reductions and negative binomial regression modeled PX-UV versus manual cleaning alone. Results: Seventy samples were collected. Overall, PX-UV reduced MRSA and ABC counts by 75.3% and 84.1%, respectively, versus only 25%-30% at control sites. Adjusting for baseline counts, manually cleaned rooms had significantly higher residual levels than PX-UV sites. Combined analyses revealed an incident rate ratio of 5.32 (P =.0024), with bedrails, tray tables, and toilet handrails also showing statistically superior PX-UV disinfection. Conclusions: This multicenter study demonstrates significantly reduced disinfection across several common pathogens in facilities using PX-UV devices. Clinical impact of laboratory reductions on infection rates was not assessed, representing a critical future research question. However, such approaches to routine cleaning suggest a practical strategy when integrated into daily hospital operations.
KW - Hospital-associated infections
KW - aerobic colonies
KW - implementation
KW - methicillin-resistant Staphylococcus aureus
KW - no-touch disinfection
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U2 - 10.1016/j.ajic.2018.02.001
DO - 10.1016/j.ajic.2018.02.001
M3 - Article
C2 - 29655672
AN - SCOPUS:85045110665
SN - 0196-6553
VL - 46
SP - 668
EP - 673
JO - American Journal of Infection Control
JF - American Journal of Infection Control
IS - 6
ER -