Control and Mitigation of Healthcare-Acquired Infections: Designing Clinical Trials to Evaluate New Materials and Technologies

Control and Mitigation of Healthcare-Acquired Infections: Designing Clinical Trials to Evaluate New Materials and Technologies

Hospitals clean environmental surfaces to lower microbial contamination and reduce the likelihood of transmitting infections. Despite current cleaning and hand hygiene protocols, hospital-acquired infections (HAIs) continue to result in a significant loss of life and cost the U.S. healthcare system...

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Bibliographic Details
Published in:HERD Vol. 5; no. 1; pp. 94 - 115
Main Authors: Sharpe, Peter A., Schmidt, Michael G.
Format: Journal Article
Language:English
Published: Los Angeles, CA SAGE Publications 01-10-2011
Sage Publications Ltd
Subjects:
Clinical Trials as Topic - methods
Copper
Cross Infection - prevention & control
Facility Design and Construction - methods
Health Facility Environment
Housekeeping, Hospital - methods
Humans
Hygiene
Research Design
transmission of pathogens
HAI
clinical outcomes
EPA registration
hospital cleanliness
copper
medical intensive care units
antimicrobial surfaces
Healthcare-acquired infections
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Summary:Hospitals clean environmental surfaces to lower microbial contamination and reduce the likelihood of transmitting infections. Despite current cleaning and hand hygiene protocols, hospital-acquired infections (HAIs) continue to result in a significant loss of life and cost the U.S. healthcare system an estimated $45 billion annually. Stainless steel and chrome are often selected for hospital touch surfaces for their “clean appearance,” comparatively smooth finish, resistance to standard cleaners, and relative effectiveness for removing visible dirt during normal cleaning. Designers use wood surfaces for aesthetics; plastic surfaces have become increasingly endemic for their relative lower initial cost; and “antimicrobial agents” are being incorporated into a variety of surface finishes. This paper concentrates on environmental surface materials with a history of bactericidal control of infectious agents and focuses on the methods necessary to validate their effectiveness in healthcare situations. Research shows copper-based metals to have innate abilities to kill bacteria in laboratory settings, but their effectiveness in patient care environments has not been adequately investigated. This article presents a research methodology to expand the evidence base from the laboratory to the built environment. For such research to have a meaningful impact on the design/specifying community, it should assess typical levels of environmental pathogens (i.e., surface “cleanliness”) as measured by microbial burden (MB); evaluate the extent to which an intervention with copper-based materials in a randomized clinical trial affects the level of contamination; and correlate how the levels of MB affect the incidence of infections acquired during hospital stays.
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ISSN:1937-5867
2167-5112
DOI:10.1177/193758671100500109