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Official Journal of the Australasian College for Infection Prevention and Control
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RESEARCH ARTICLE
Contents Vol 16(4)

An assessment of high touch object cleaning thoroughness using a fluorescent marker in two Australian hospitals

Cathryn L. Murphy A B C E , Deborough A. Macbeth A , Petra Derrington A , John Gerrard A , Jacinta Faloon A , Kellie Kenway A , Samantha Lavender A , Simon Leonard A , Amanda Orr A , Dayani Tobin A and Philip Carling D
+ Author Affiliations
- Author Affiliations

A Infection Control, Infectious Diseases and Microbiology Departments, Gold Coast Hospital, 108 Nerang Street, Southport, Qld 4215, Australia.

B School of Nursing and Midwifery, Griffith University, Southport, Qld 4215, Australia.

C Faculty of Health Sciences and Medicine, Bond University, Qld 4229, Australia.

D Hospital Epidemiology, Carney Hospital, 2100 Dorchester Avenue, Boston, MA 02124, USA.

E Corresponding author. Email: Cathryn_Murphy@health.qld.gov.au

Healthcare Infection 16(4) 156-163 https://doi.org/10.1071/HI11024
Submitted: 16 September 2011  Accepted: 19 December 2011   Published: 16 January 2012

Abstract

Objective: We needed to better understand the usefulness of different methods of monitoring and achieving sustained improvement in cleaning. Common elements of successful international approaches include a covert nature, the use of a method to visually identify and highlight deficiencies in the cleaning of high touch objects (HTOs) and the provision of feedback and education before re-evaluation. The specific purpose of this study was to evaluate fluorescent marking, education and feedback for assessing and improving HTO cleaning in a typical Australian inpatient hospital setting.

Methods: A three-phase, prospective study was conducted in two acute care hospitals over 17 weeks. For each phase, in a set of 37 specific single-inpatient rooms, seven predefined HTOs were marked with a liquid isopropyl alcohol and optical brightener formulation targeting material solution containing a fluorescent marker (FM), known as DAZO®, designed specifically for the purpose of evaluating surface cleaning. In each hospital we targeted rooms located in the four wards with the greatest de novo multidrug resistant organism burden. Forty-eight hours after applying the FM we used a black-light to visualise the mark’s presence or removal. In phase 1 only, HTOs were swabbed before marking. Also in the first phase only and immediately following the initial assessment, each HTO was cleaned, remarked and re-assessed at 48 h. Between phases 1 and 2, investigators provided results to environmental services (EVS) leadership and staff. Education was provided to EVS staff after phase 1 only.

Results: A total of 986 marks were evaluated. The cleaning scores for individual HTOs in phases 1–3 ranged from 9.4 to 77.8%, 10.8 to 93% and 13.5 to 67.7% respectively. In phase 3, three HTOs scored lower than in phase 1. The mean overall cleaning scores for phases 1–3 were 34%, 53% and 41% respectively.

Conclusions: The FM was useful to assess HTO cleaning thoroughness. It facilitated relevant feedback and education and motivated staff to strive for continual improvements in environmental cleaning. Without on-going education, preliminary improvements were unsustained. However, investigators better understood flaws in cleaning and policy/procedure conflicts.


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