Initial Antimicrobial Testing of a Novel Reusable Intermittent Urinary Catheter System and Catheter Reprocessing Device.

OBJECTIVE

To evaluate the efficacy of the Aurie System, a preclinical prototype allowing for standardized intermittent catheter (IC) reuse of novel reusable no-touch ICs. Individuals with neurogenic bladder often require single-use ICs to urinate, but urinary tract infection (UTI) is a common cause of morbidity for IC users. Safer no-touch catheters are not easily affordable, and the Aurie System attempts to provide no-touch catheters at a fraction of the price by allowing for standardized and safe IC reuse.

METHODS

Standard ICs were inoculated with Escherichia coli and Pseudomonas aeruginosa and incubated for 48 hours to assess microbial burden and biofilm formation (the latter using infrared fluorescence imaging). This procedure was repeated with Aurie ICs, focusing on evaluating catheter microbial burden after inoculation and reprocessing with the prototype washer-disinfector. This was repeated with up to 100 cycles to evaluate repetitive use.

RESULTS

Standard ICs showed bacterial attachment and biofilm development peaking at 24 hours of incubation. The Aurie catheters produced a similar outcome but, after reprocessing, microbial burden was reduced below the level of detection. Repeat cycles showed pathogen clearance to similar levels. One catheter reached 100 cycles and there was no viable pathogen load after reprocessing.

CONCLUSION

Intermittent urinary catheters, when cleaned inappropriately, can harbor viable bacteria and biofilm. The Aurie System, when used to disinfect novel reusable ICs within a prototype reprocessing device, can reduce microbial burden below level of detection even after 100 cycles. This suggests the Aurie System may be a feasible technology for safe IC reuse.