A dynamic flow model mimicking duodenoscope reprocessing after bacterial contamination for translational research

Publication date

2022-09-13

Authors

Heuvelmans, M
Woudstra, Willem
Wunderink, Herman F.
Monkelbaan, Jan F.ORCID 0000-0001-9030-059XISNI 0000000392149509
van der Mei, Henny C

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Abstract

OBJECTIVE: Duodenoscopy-associated infections and outbreaks are reported globally despite strict adherence to duodenoscope reprocessing protocols. Therefore, new developments in the reprocessing procedure are needed. DESIGN: We evaluated a novel dynamic flow model for an additional cleaning step between precleaning and manual cleaning in the reprocessing procedure. METHODS: A parallel plate flow chamber with a fluorinated ethylene propylene bottom plate was used to mimic the duodenoscope channels. The flow chamber was inoculated with a suspension containing Klebsiella pneumoniae to simulate bacterial contamination during a duodenoscopic procedure. After inoculation the flow chamber was flushed with a detergent mimicking precleaning. Subsequently the flow chamber was subjected to different interventions: flow with phosphate-buffered saline (PBS), flow with 2 commercial detergents, flow with sodium dodecyl sulfate with 3 different concentrations, and flow with microbubbles. Adhering bacteria were counted using phase-contrast microscopy throughout the experiment, and finally, bacterial viability was assessed. RESULTS: During precleaning both PBS and 1% (v/v) Neodisher Mediclean Forte were able to desorb bacteria, but neither proved superior. After precleaning only sodium dodecyl sulfate could desorb bacteria. CONCLUSIONS: Flushing during precleaning is an essential step for reducing adhering luminal bacteria, and sodium dodecyl sulfate is a promising detergent for bacterial desorption from duodenoscope channels after precleaning.

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Citation

Heuvelmans, M, Woudstra, W, Wunderink, H F, Monkelbaan, J F & van der Mei, H C 2022, 'A dynamic flow model mimicking duodenoscope reprocessing after bacterial contamination for translational research', Antimicrobial stewardship and healthcare epidemiology, vol. 2, no. 1, e153. https://doi.org/10.1017/ash.2022.294