J A Otter1, S Yezli, T M Perl, F Barbut, G L French. 1. Centre for Clinical Infection and Diagnostics Research, CIDR, Department of Infectious Diseases, King's College London, School of Medicine and Guy's and St Thomas' NHS Foundation Trust, UK. jon.otter@bioquell.com
Abstract
BACKGROUND: Surface contamination in hospitals is involved in the transmission of pathogens in a proportion of healthcare-associated infections. Admission to a room previously occupied by a patient colonized or infected with certain nosocomial pathogens increases the risk of acquisition by subsequent occupants; thus, there is a need to improve terminal disinfection of these patient rooms. Conventional disinfection methods may be limited by reliance on the operator to ensure appropriate selection, formulation, distribution and contact time of the agent. These problems can be reduced by the use of 'no-touch' automated room disinfection (NTD) systems. AIM: To summarize published data related to NTD systems. METHODS: Pubmed searches for relevant articles. FINDINGS: A number of NTD systems have emerged, which remove or reduce reliance on the operator to ensure distribution, contact time and process repeatability, and aim to improve the level of disinfection and thus mitigate the increased risk from the prior room occupant. Available NTD systems include hydrogen peroxide (H(2)O(2)) vapour systems, aerosolized hydrogen peroxide (aHP) and ultraviolet radiation. These systems have important differences in their active agent, delivery mechanism, efficacy, process time and ease of use. Typically, there is a trade-off between time and effectiveness among NTD systems. The choice of NTD system should be influenced by the intended application, the evidence base for effectiveness, practicalities of implementation and cost constraints. CONCLUSION: NTD systems are gaining acceptance as a useful tool for infection prevention and control.
BACKGROUND: Surface contamination in hospitals is involved in the transmission of pathogens in a proportion of healthcare-associated infections. Admission to a room previously occupied by a patient colonized or infected with certain nosocomial pathogens increases the risk of acquisition by subsequent occupants; thus, there is a need to improve terminal disinfection of these patient rooms. Conventional disinfection methods may be limited by reliance on the operator to ensure appropriate selection, formulation, distribution and contact time of the agent. These problems can be reduced by the use of 'no-touch' automated room disinfection (NTD) systems. AIM: To summarize published data related to NTD systems. METHODS: Pubmed searches for relevant articles. FINDINGS: A number of NTD systems have emerged, which remove or reduce reliance on the operator to ensure distribution, contact time and process repeatability, and aim to improve the level of disinfection and thus mitigate the increased risk from the prior room occupant. Available NTD systems include hydrogen peroxide (H(2)O(2)) vapour systems, aerosolized hydrogen peroxide (aHP) and ultraviolet radiation. These systems have important differences in their active agent, delivery mechanism, efficacy, process time and ease of use. Typically, there is a trade-off between time and effectiveness among NTD systems. The choice of NTD system should be influenced by the intended application, the evidence base for effectiveness, practicalities of implementation and cost constraints. CONCLUSION: NTD systems are gaining acceptance as a useful tool for infection prevention and control.
Authors: H P Loveday; J A Wilson; R J Pratt; M Golsorkhi; A Tingle; A Bak; J Browne; J Prieto; M Wilcox Journal: J Hosp Infect Date: 2014-01 Impact factor: 3.926
Authors: Sergio D Sierra Marín; Daniel Gomez-Vargas; Nathalia Céspedes; Marcela Múnera; Flavio Roberti; Patricio Barria; Subramanian Ramamoorthy; Marcelo Becker; Ricardo Carelli; Carlos A Cifuentes Journal: Front Robot AI Date: 2021-06-02
Authors: John E Zeber; John D Coppin; Frank C Villamaria; Marjory D Williams; Laurel A Copeland; Piyali Chatterjee; Hosoon Choi; Chetan Jinadatha Journal: Open Forum Infect Dis Date: 2019-12-17 Impact factor: 3.835