Litcius/Paper detail

Ureteral Stents Harbor Complex Biofilms With Rich Microbiome-Metabolite Interactions

Glenn T. Werneburg, Daniel Hettel, Scott D. Lundy, Ava Adler, Smita De, Sromona Mukherjee, Raymond R. Rackley, Daniel A. Shoskes, Aaron W. Miller

2023The Journal of Urology18 citationsDOI

Abstract

PURPOSE: We sought to determine microbe-metabolite composition and interactions within indwelling ureteral stent biofilms, determine their association with patient factors including infection, and reconstitute biofilm formation on relevant surface materials in vitro. MATERIALS AND METHODS: -tests or PERMANOVA. Biofilm deposition by microbial strain and device material type were analyzed using plate counts and scanning electron microscopy following bioreactor incubation. RESULTS: most) and material type (titanium least). CONCLUSIONS: Ureteral stent biofilms exhibit patterns unique to stent-associated infection and antibiotic exposure during indwelling time. Microbes isolated from stents reconstituted biofilm formation in vitro. This work provides a platform to test novel materials, evaluate new coatings for anti-biofilm properties, and explore commensal strain use for bacterial interference against pathogens.

Topics & Concepts

BiofilmMicrobiologyEnterococcus faecalisStentUreaplasmaMetaboliteMedicineBiologyBacteriaSurgeryStaphylococcus aureusMycoplasmaGeneticsInternal medicineKidney Stones and Urolithiasis TreatmentsUrinary Tract Infections ManagementUreteral procedures and complications