Prevention of Encrustation on Ureteral Stents: Which Surface Parameters Provide Guidance for the Development of Novel Stent Materials?

Rebl, Henrike; Renner, Jürgen; Kram, Wolfgang; Springer, Armin; Fritsch, Nele; Hansmann, Harald; Hakenberg, Oliver W.; Nebe, J. Barbara

doi:10.3390/polym12030558

Cited by 22 publications

(26 citation statements)

References 26 publications

(40 reference statements)

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“…The problems encountered in ureteral stents also instigated companies to develop optimized polyurethane-based proprietary formulations, like Sof-Flex ®, Tecoflex ® , Hydrothane ® and ChronoFlex ® [13]. Nowadays, polyurethane's chemical characteristics can be tuned, such as the surface wettability and surface energy, which allows the control of other properties like encrustation and bacterial adhesion propensity [14]. Other polymers were also developed, such as the polyester copolymer, Silitek ® , a proprietary polymer that becomes soft and flexible at body temperature, with a reported excellent biocompatibility, Perculfex ® , polyethylene-vinyl acetate and styrene/ethylenebutylene/styrene block copolymers, F-Flex ® , and poly(methyl methacrylate)/poly(hydroxyethyl methacrylate) (PMMA/pHEMA) with improved mechanical properties than silicone [15].…”

Section: Polymeric Materialsmentioning

confidence: 99%

“…Albeit all the reported polymer's formulations, the available ureteral stents are not devoid of clinical complications, thereby, investigations aiming to modify the base polymers are still on going. A recent work presented by Rebl et al addressed the influence of physical properties of different polymers' samples on their propensity to develop encrustation [14]. The data revealed that the encrustation degree is correlated with the surface charge and hydrophobicity of the polymer samples, a lower encrustation propensity was observed for polymers with strong negative surface charge and good hydrophilicity [14].…”

Section: Polymeric Materialsmentioning

confidence: 99%

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Biomaterials for Ureteral Stents: Advances and Future Perspectives

et al. 2022

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Ureteral stents play a fundamental role in the relief of several symptoms associated with common urinary diseases in the modern society, such as strictures, obstruction or promotion of ureteral healing. Even though ureteral stents have been used for more than 40 years and their performance had a huge development over time, they are still related with complications that include stent encrustation and urinary tract infections. Therefore, efforts from the research community still continue to better meet the clinical needs. Ureteral stent’s materials have a great influence on their efficacy, mostly in terms of mechanical and physicochemical properties. Thus, understanding the stent material’s properties is fundamental to address problems of encrustation, bacterial adhesion, patient discomfort and the troubles during insertion, by working on the softness, flexibility and surface properties of the device.Considerable progress has been done on ureteral stent’s properties with the aim to meet the clinical problems encountered. Even though this progress does not end up with an ureteral stent without associated complications, it allows to understand the behaviour of different materials and designs in the urologic environment. Indeed, the vast amount of work done and respective outputs have been proven that the different materials can complement each other’s disadvantages, for example, the metals can bear with the high compression that polymeric stents cannot. The goal is to combine the advantages of each material without their associated complications. Therefore, the use of biodegradable materials and combination of different raw materials, together with design adjustments appears to be the future of ureteral stents design.

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Section: Polymeric Materialsmentioning

confidence: 99%

Section: Polymeric Materialsmentioning

confidence: 99%

Biomaterials for Ureteral Stents: Advances and Future Perspectives

et al. 2022

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“…Heparin, having a strong negative charge density is a potent inhibitor of encrustations and is often incorporated as a coating material in commercially available ureteral stents. However, its effectiveness to prevent biofilm is still a matter of debate [72,73]. In contrast, the contact-killing strategy relies on a positively charged surface and a permeabilization of the bacterial cell surface that leads to the leakage of intracellular material and eventual cell death.…”

Section: Electrical Charges To Prevent Biofilm Adhesionmentioning

confidence: 99%

Potential strategies to prevent encrustations on urinary stents and catheters – thinking outside the box: a European network of multidisciplinary research to improve urinary stents (ENIUS) initiative

Abou‐Hassan

Barros

Buchholz³

et al. 2021

Expert Review of Medical Devices

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HAL is a multi-disciplinary open access archive for the deposit and dissemination of scientific research documents, whether they are published or not. The documents may come from teaching and research institutions in France or abroad, or from public or private research centers. L'archive ouverte pluridisciplinaire HAL, est destinée au dépôt et à la diffusion de documents scientifiques de niveau recherche, publiés ou non, émanant des établissements d'enseignement et de recherche français ou étrangers, des laboratoires publics ou privés.

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“…It was revealed that a change in the calcium and magnesium salts ratio and albumin concentration altered the mass of encrustation. Moreover, the surface properties with good hydrophilicity, stable zeta potential and the presence of urease inhibitors significantly produced promising ureteral stents [ 17 , 18 ].…”

Section: Introductionmentioning

confidence: 99%

In vitro and in vivo studies on bacteria and encrustation resistance of heparin/poly-L-lysine-Cu nanoparticles coating mediated by PDA for ureteral stent application

Awonusi

et al. 2022

Regenerative Biomaterials

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Ureteral stents are commonly utilized as a medical device to aid the flow of urine. However, biofilm formation and encrustation complications have been clinical problems. To overcome this challenge, heparin/poly-L-lysine-copper (Hep/PLL-Cu) nanoparticle was immobilized on a dopamine-coated polyurethane surface (PU/NPs). The stability and structural properties of the nanoparticles were characterized by Zeta potential, poly dispersion index, transmission electron microscopy, atom force microscopy, and contact angle. The surface composition, antibacterial potency, encrustation resistance rate, and biocompatibility of PU/NPs were investigated by scanning electron microscope, XPS, antibacterial assay, and MTS assay, respectively. In addition, the anti-encrustation property was studied by implanting coated NPs stents in the rat bladder for 7 days. It was shown that the size and distribution of Hep/PLL-Cu nanoparticles were uniform. PU/NPs could inhibit Proteus mirabilis proliferation and biofilm formation, and exhibit no cytotoxicity. Less encrustation (Ca and Mg salt) was deposited both in vitro and in vivo on samples, demonstrating that the NPs coating could be a potential surface modification method of ureteral material for clinical use.

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Prevention of Encrustation on Ureteral Stents: Which Surface Parameters Provide Guidance for the Development of Novel Stent Materials?

Cited by 22 publications

References 26 publications

Biomaterials for Ureteral Stents: Advances and Future Perspectives

Biomaterials for Ureteral Stents: Advances and Future Perspectives

Potential strategies to prevent encrustations on urinary stents and catheters – thinking outside the box: a European network of multidisciplinary research to improve urinary stents (ENIUS) initiative

In vitro and in vivo studies on bacteria and encrustation resistance of heparin/poly-L-lysine-Cu nanoparticles coating mediated by PDA for ureteral stent application

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