Background: Cleaning high-touch surfaces serves as a crucial step towards controlling the transmission of multidrug-resistant pathogens in hospital environments. The process can be made most effective if scientifically monitored using a simple, feasible and reliable technique, especially in resource-poor settings.
Aim: To identify a novel florescent marker (FM) comparable to the already existing commercial FM systems and to assess its efficacy in evaluating cleaning of high-touch surfaces in a hospital environment.
Methods: A liquid detergent used for washing purposes was identified as a novel FM. Pre- and post-cleaning sampling were performed from 250 high-touch surfaces in different patient-care areas using this marker and aerobic colony counts. Concordance between the two methods was assessed and compared by Cohen's kappa coefficient. The sensitivity, specificity, positive predictive and negative predictive values for the new FM method were calculated against the microbiological method.
Findings: A good correlation (κ = 0.60) with overall concordance of 79.6% was observed between the two methods. The sensitivity, specificity, positive predictive value and negative predictive value of the FM were 79.58% (95% confidence interval (CI): 72-85.85%), 79.63% (95% CI: 70.79-86.78), 83.70% (95% CI: 76.38-89.50) and 74.78% (95% CI: 65.83-82.38), respectively.
Conclusions: The FM used in the present study proved to be a simple and cost-effective alternative to commercially available FMs for assessing environmental cleaning practices on a daily basis in resource-poor settings. Additional studies making direct comparisons of the FM used here with the established FMs are warranted before it can be generalized for use.
Keywords: Aerobic colony counts; Cleanliness assessment; Fluorescent marker; High-touch surfaces; Hospital environment.
Copyright © 2019 The Healthcare Infection Society. Published by Elsevier Ltd. All rights reserved.