Litcius/Paper detail

Inner surface modification of ureteral stent polyurethane tubes based by plasma-enhanced chemical vapor deposition to reduce encrustation and biofilm formation

Hyuna Lim, Jae Hoon Chung, Yoon‐Soo Park, Namwuk Baek, Youngsik Seo, Heonyong Park, Yong Ki Cho, Donggeun Jung, Deok Hyun Han

2022Biofouling11 citationsDOI

Abstract

Encrustation and/or biofilm formation in ureteral stents are major causes of obstruction and reduce the lifetime of a ureteral stent. In this study, the inner surfaces of polyurethane (PU) tubes (inner and outer diameters of 1.2 and 2.0 mm, respectively) were reformed with Ar, O2, and C2H2 gases using specialized plasma-enhanced chemical vapor deposition techniques for the first time. Then, the modified PU tubes were immersed in urine for 15 days, and the characteristics of the inner surfaces were analyzed. Depending on the modification procedure, the corresponding inner surface exhibited different chemical properties and different rates of encrustation and biofilm formation. For a hydrophilic surface treated with Ar and O2, encrustation and biofilm formation increased, while for the C2H2 coating, the development of encrustation and biofilm reduced by more than five times compared with the untreated bare PU tube. This study demonstrated that inner plasma surface modification of ureteral stents greatly enhances resistance to encrustation and biofilm formation.

Topics & Concepts

BiofilmPolyurethaneSurface modificationCoatingAdhesionTube (container)Chemical vapor depositionChemical engineeringMaterials scienceDeposition (geology)ChemistryPlasmaComposite materialNanotechnologyBacteriaBiologyPaleontologyQuantum mechanicsSedimentEngineeringGeneticsPhysicsUreteral procedures and complicationsKidney Stones and Urolithiasis TreatmentsUrological Disorders and Treatments