Early warning system for catheter blockages could prevent life-threatening infections

Up to half of people who use catheters long-term will at some point experience a blockage caused by a bacterial biofilm. This is bad news. When a catheter blocks, urine can no longer drain into the collection bag and so pushes back up from the bladder into the kidneys. There the bacterial infection builds where it can cause kidney failure, septicemia and death.

Our lab at the University of Bathopens in new tab/window has developed an early warning tube-coating system to detect biofilm build-up before a blockage can occur. It delivers an obvious visual clue – the urine in the collection bag changes color – so that it’s easy for anyone using a catheter to see there’s a problem looming.

Many people who use catheters long-term do so at home, or in a care-home setting, where they don’t have access to clinical expertise. One of the advantages of our system is this visual clue, which can be spotted by anyone, regardless of their training.

Our system exploits this pH change: the increasingly alkaline urine dissolves the top layer and releases the dye before the film builds up enough to create a blockage. The dye floods into the bladder, mixes with the urine and drains out into the collection bag where the color change signals infection.

The coatings work up to 12 hours in advance of a blockage. In our experiments we used a glass bladder and artificial urine infected with P. mirabilis from patient samples. We allowed the urine to flow until a blockage formed, marking the end point of the experiment. We monitored changes in the color of fluid in the collection bag over time.

We found that four hours after the bacteria were introduced, the urine began to change color. A blockage typically formed 16 hours later. The color change was strongest after six hours.

Tackling antibiotic resistance

Because infection rates are so high in people who use catheters, people are often given antibiotics to try to prevent infection. There are even catheters available that are impregnated with antibiotics. However, this is controversial given the increasing problem of antibiotic resistance: using antibiotics to prevent, rather than treat, infection can reduce their efficacy and contribute to resistance.

By using our dye-based system, antibiotics are only needed when it’s clear an infection is present rather than speculatively in the hope that it will prevent future infection. Because no specialist equipment or training is needed to monitor whether there is a potential infection, people can see clearly if it’s necessary for them to take antibiotics. This will save money by reducing the number of serious infections and by preventing the unnecessary use of antibiotics. Our system could therefore help tackle antibiotic resistance.

We hope that we can develop the system to the point where it is ready for people with catheters to use, to everyone’s benefit.

Read the study

Elsevier has made this article freely available until April 18, 2017: Scarlet Milo et al: “An in-situ infection detection sensor coating for urinary cathetersopens in new tab/window,” Biosensors and Bioelectronics (July 2016).

The journal

Biosensors and Bioelectronicsopens in new tab/window is the principal international journal devoted to research, design, development and application of biosensors and bioelectronics. It is an interdisciplinary journal serving professionals with an interest in the exploitation of biological materials and designs in novel diagnostic and electronic devices including sensors, DNA chips, electronic noses, lab-on-a-chip and μ-TAS. Read moreopens in new tab/window.