To develop a novel in vitro urethra model and use it to determine if insertion of an intermittent urinary catheter (IC) displaces pathogenic bacteria from the urethral meatus along the urethra.
Displacement of microbial growth after catheter insertion was assessed using a novel in vitro urethra model. The in vitro urethra model utilized chromogenic agar and was inoculated with bacteria at one side of the artificial urethra channel, to act as a contaminated urethral meatus, before an IC was inserted into the channel. Three ICs types were used to validate the in vitro urethra model and methodology.
When compared to the bacterial growth control, a significant difference in bacterial growth was found after insertion of the uncoated (P ≤ 0·001) and hydrophilic coated (P ≤ 0·009) catheters; no significant difference when a prototype catheter was inserted into the in vitro urethra model with either bacterial species tested (P ≥ 0·423).
The results presented support the hypothesis that a single catheter insertion can initiate a catheter-associated urinary tract infection.
The in vitro urethra model and associated methodology were found to be reliable and reproducible (P ≥ 0·265) providing new research tool for the development and validation of emerging technologies in urological healthcare.
Journal of applied microbiology. 2019 Nov 29 [Epub ahead of print]
Y J Cortese, V E Wagner, M Tierney, D Scully, D M Devine, A Fogarty
Materials Research Institute, Athlone Institute of Technology, Athlone, Ireland., Global Advanced Engineering, Teleflex, Reading, PA, USA., Global Advanced Engineering, Teleflex Medical Europe Ltd, Athlone, Ireland., Bioscience Research Institute, Athlone Institute of Technology, Athlone, Ireland.