OBJECTIVE: This study aimed to monitor the microbiological effect of cleaning near-patient sites over a 48-hour period with a novel disinfectant, electrolyzed water. SETTING: One ward dedicated to acute care of the elderly population in a district general hospital in Scotland. METHODS: Lockers, left and right cotsides, and overbed tables in 30 bed spaces were screened for aerobic colony count (ACC), methicillin-susceptible Staphylococcus aureus (MSSA), and methicillin-resistant S. aureus (MRSA) before cleaning with electrolyzed water. Sites were rescreened at varying intervals from 1 to 48 hours after cleaning. Microbial growth was quantified as colony-forming units (CFUs) per square centimeter and presence or absence of MSSA and MRSA at each site. The study was repeated 3 times at monthly intervals. RESULTS: There was an early and significant reduction in average ACC (360 sampled sites) from a before-cleaning level of 4.3 to 1.65 CFU/cm(2) at 1 hour after disinfectant cleaning ( P < .0001). Average counts then increased to 3.53 CFU/cm(2) at 24 hours and 3.68 CFU/cm(2) at 48 hours. Total MSSA/MRSA (34 isolates) decreased by 71% at 4 hours after cleaning but then increased to 155% (53 isolates) of precleaning levels at 24 hours. CONCLUSIONS: Cleaning with electrolyzed water reduced ACC and staphylococci on surfaces beside patients. ACC remained below precleaning levels at 48 hours, but MSSA/MRSA counts exceeded original levels at 24 hours after cleaning. Although disinfectant cleaning quickly reduces bioburden, additional investigation is required to clarify the reasons for rebound contamination of pathogens at near-patient sites.
OBJECTIVE: This study aimed to monitor the microbiological effect of cleaning near-patient sites over a 48-hour period with a novel disinfectant, electrolyzed water. SETTING: One ward dedicated to acute care of the elderly population in a district general hospital in Scotland. METHODS: Lockers, left and right cotsides, and overbed tables in 30 bed spaces were screened for aerobic colony count (ACC), methicillin-susceptible Staphylococcus aureus (MSSA), and methicillin-resistant S. aureus (MRSA) before cleaning with electrolyzed water. Sites were rescreened at varying intervals from 1 to 48 hours after cleaning. Microbial growth was quantified as colony-forming units (CFUs) per square centimeter and presence or absence of MSSA and MRSA at each site. The study was repeated 3 times at monthly intervals. RESULTS: There was an early and significant reduction in average ACC (360 sampled sites) from a before-cleaning level of 4.3 to 1.65 CFU/cm(2) at 1 hour after disinfectant cleaning ( P < .0001). Average counts then increased to 3.53 CFU/cm(2) at 24 hours and 3.68 CFU/cm(2) at 48 hours. Total MSSA/MRSA (34 isolates) decreased by 71% at 4 hours after cleaning but then increased to 155% (53 isolates) of precleaning levels at 24 hours. CONCLUSIONS: Cleaning with electrolyzed water reduced ACC and staphylococci on surfaces beside patients. ACC remained below precleaning levels at 48 hours, but MSSA/MRSA counts exceeded original levels at 24 hours after cleaning. Although disinfectant cleaning quickly reduces bioburden, additional investigation is required to clarify the reasons for rebound contamination of pathogens at near-patient sites.
Authors: Giorgia Gon; Lucia Dansero; Alexander M Aiken; Christian Bottomley; Stephanie J Dancer; Wendy J Graham; Olivia C Ike; Michelle Lewis; Nick Meakin; Obiora Okafor; Nkolika S Uwaezuoke; Tochi Joy Okwor Journal: Microorganisms Date: 2022-04-26
Authors: Jennifer H Han; Nancy Sullivan; Brian F Leas; David A Pegues; Janice L Kaczmarek; Craig A Umscheid Journal: Ann Intern Med Date: 2015-08-11 Impact factor: 25.391
Authors: Ryan S Hennessy; Soumen Jana; Brandon J Tefft; Meghana R Helder; Melissa D Young; Rebecca R Hennessy; Nicholas J Stoyles; Amir Lerman Journal: JACC Basic Transl Sci Date: 2017-02
Authors: Robert Clifford; Michael Sparks; Eve Hosford; Ana Ong; Douglas Richesson; Susan Fraser; Yoon Kwak; Sonia Miller; Michael Julius; Patrick McGann; Emil Lesho Journal: PLoS One Date: 2016-05-19 Impact factor: 3.240
Authors: Beatrice Casini; Anna Righi; Nunzio De Feo; Michele Totaro; Serena Giorgi; Lavinia Zezza; Paola Valentini; Enrico Tagliaferri; Anna Laura Costa; Simona Barnini; Angelo Baggiani; Pietro Luigi Lopalco; Paolo Malacarne; Gaetano Pierpaolo Privitera Journal: Int J Environ Res Public Health Date: 2018-10-19 Impact factor: 3.390