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Limiting the Spread of Infection in Healthcare Environments

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Limiting the Spread of Infection in Healthcare Environments (Mixed)

  • Author: Mary G. Lankford, Susan Collins, Larry Youngberg, Denise M. Rooney, John R. Warren, Gary A. Noskin
  • Format: Mixed
  • Publication Date: Jan 4, 2007

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Limiting the Spread of Infection in Healthcare Environments - CD
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Quick Overview

The results of Limiting the Spread of Infection in Healthcare Environments confirms previous empirical findings that resistant organisms are capable of prolonged survival, selection and proper use of cleaning materials are essential for disinfection, and rigorous hand washing by health care providers is key to avoiding cross transmission of organisms.



Publisher: The Center for Health Design CHER (Coalition for Health Environments Research)
File Size: 4.7 MB

Abstract:
Background: Contaminated environmental surfaces, equipment, and healthcare workers’ hands have been linked to outbreaks of infection or colonization due to vancomycin-resistant  enterococci (VRE) and Pseudomonas aeruginosa (PSAE). In  addition, the composition of certain fibers in textiles and surface structures of building materials such as upholstery, walls, and floors may actually enhance survival of bacteria, therefore providing infectious reservoirs.

Objectives: To investigate the ability of various surfaces to harbor VRE and PSAE; determine recovery of organisms on environmental surfaces after cleaning; and evaluate possible healthcare provider transmission.

Methods: Fourteen environmental surfaces used for upholstery, flooring, and wallcoverings were inoculated with VRE and PSAE and assessed for microbial recovery at 24 hours, 72 hours, and 7 days. Following inoculation, surfaces were cleaned according to manufacturers’ recommendations and samples were obtained.

To assess surfaces’ potential for transmission, healthy human volunteers touched VRE-inoculated surfaces with the palmar surfaces of their hands and imprinted them onto contact impression plates.

Results: Twenty-four hours following inoculation, all (100%) surfaces had recovery of VRE and 13 (92.9%) of 14 surfaces had persistent growth of PSAE. After cleaning,VRE was recovered from 5 (35.5%) surfaces and PSAE from 4 (28.6%) surfaces. Cleaning methods were the least effective in removing bacteria from painted walls eliminating 3 log10 of VRE and PSAE. After inoculation followed by palmar contact,VRE was recovered from all 14 surfaces touched.

Conclusion: Many bacteria commonly encountered in hospitals are capable of prolonged survival on environmental surfaces and may promote cross-transmission. Product application and complexity of manufacturers’ recommendations for surface disinfection should be considered when selecting materials for healthcare environments.

The recovery of organisms on environmental surfaces, as well as the hands of volunteers, emphasizes the importance of compliance with hand hygiene prior to patient contact.