Final Report Summary - SAFE CATHETER (Development of a cost-effective anti-bacterial device for the 37 million urethral catheters used in enlarged Europe)
Uropathogens can enter the catheter via two routes: the extraluminal contamination by direct inoculation (external catheter surface) and the intraluminal contamination by reflux of bacteria and contamination of urine in the collection bag (internal catheter surface). Both contaminations are caused by initial conditioning of urinary protein films, which allows for subsequent bacterial attachment and biofilm formation. The extraluminal infection route is blocked with the use of application of external hydrogel-silver films, oral administration or coating of catheters with antibiotic drugs. While for the intraluminal infection no real solution is available at the present moment.
The SAFE CATHETER project was able to design and realise a cost-effective device able to create a barrier that avoids migration of the bacteria intraluminally, avoiding the biofilm to reach the bladder and cause infection. The project developed a novel retrofit system device that can be integrated along the external tube connecting the catheter to the urine bag. The principle consists in triggering the photocatalytic titanium dioxide (TiO2) film with inexpensive energy ultraviolet (UV) light emitting diodes (LEDs) powered by small coin batteries.
The main project results achieved during the project were:
1. TiO2 triggering form with low power UV LEDs and possible upgrades with visible light LEDs;
2. TiO2 thin film deposition on a plastic substrate, to ensure adhesion of the film;
3. development of the SAFE CATHETER system as innovative catheter antibacterial device constituted by the assembly of different components.
These results were achieved successfully with minor deviations from the original activity plan.
The SAFE CATHETER device was tested and validated in laboratory conditions and showed full compliancy with the previous laboratory tests.