Dr Jones and his team have evaluated the potential for viruses that specifically infect and kill bacteria – called bacteriophage – to prevent these infections.
Dr Jones, currently serving as Head of Research Development at in East Grinstead, West Sussex, said: “Our work provides good initial evidence that bacteriophage can treat infections caused by Proteus mirabilis and prevent catheter blockage.
“This could lead to new ways of managing patients fitted with urinary catheters, providing much benefit to a large number of patients, and also contribute to reducing antibiotic use and tackling resistance.”
Dr Jones said more research was needed: “We are still at a very early stage in this work, and have a long way to go before we can be sure this will lead to an effective way to control these infections, but bacteriophage have been used extensively in other countries for decades, and the challenge of antibiotic resistance makes it important to look at using these promising alternatives to antibiotics. We think an important issue will be in developing ways to deliver bacteriophage as needed, which is a key aim of our ongoing work."
The research is a collaboration with scientists and clinicians from the °®¶¹´«Ã½, the University of Bath, Queens University of Belfast, Surrey and Sussex Healthcare NHS Trust, Frontier Pathology NHS Partnership, the Blond McIndoe Research Foundation, and Queen Victoria Hospital NHS Foundation Trust.
Dr Karen Knox, Consultant Microbiologist and Lead Infection Control Doctor with Surrey & Sussex Healthcare NHS Trust and Frontier Pathology, said: “Long term indwelling urinary catheters pose significant healthcare associated infection risk and burden, often in elderly and already immunocompromised patients.
“This research is an exciting opportunity to explore and potentially open up new avenues of infection prevention and management, which provides some optimism in the era of ever increasing antimicrobial resistance.”
, Reader in Biophysical Chemistry at the University of Bath, said: “As effective antibiotics become ever scarcer, we have to look at alternatives. This study strongly suggests that a cocktail of bacteriophage is highly effective in clearing catheter associated urinary tract infection. We will engineer delivery systems over the next 12 months for the targeted delivery of such viruses where and when they are needed.”
And , from Queens University Belfast, said: “This innovative approach has the potential to provide an effective, non-antibiotic solution to catheter-associated infections which affect some of the most vulnerable patients in society. These infections have huge impact on patients and place a huge financial burden on the NHS and healthcare providers globally, so strategies to combat them are badly needed."