Polymer-Coated Urinary Catheter Reduces Biofilm Formation and Biomineralization: A First-in-Man, Prospective Pilot Study

K. Kalenderski, J. Dubern, C. Lewis-Lloyd, Nicola Jeffery, Stephan Heeb, Derek J. Irvine, Tim J. Sloan, Brian Birch, Daniela Andrich, David Humes, Morgan R Alexander, P. Williams
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引用次数: 1

Abstract

Biofilm formation and biomineralization on urinary catheters may cause severe complications including infection and obstruction. Here, we describe an in vitro evaluation and prospective pilot clinical study of a silicone catheter coated with a biofilm-resistant polymer. Biofilm biomass and biomineralization on uncoated and coated catheters were quantified by confocal microscopy using fluorescently tagged bacteria or stained for biofilm and minerals. Biomineral identity was determined using scanning electron microscopy and X-ray spectroscopy. Biofilm formation and biomineralization were evaluated in vitro using uropathogens Proteus mirabilis and Pseudomonas aeruginosa and on catheters recovered from hospitalized patients. Fibrinogen in patient urine and on catheters was quantified using an immunofluorescence assay. In vitro P. mirabilis and P. aeruginosa formed significantly less biofilm and biomineral and failed to block coated compared with uncoated catheters in a bladder model after 89 h. Biofilm-resistant polymer-coated catheters (n = 83) recovered from hospitalized patients exhibited significantly lower biofilm biomass and biomineralization compared with uncoated silicone catheters (n = 78). Electron microscopy with elemental analysis of recovered catheters revealed calcium oxalate crystals on coated compared with the struvite and apatite crystals on uncoated catheters associated with catheter blockage. Lower levels of biofilm-promoting fibrinogen in postcatheterization urine and on catheters from patients receiving coated catheters was observed compared with those receiving uncoated catheters indicative of a reduced inflammatory response. These data provide evidence that polymer-coated urinary catheters exhibit enhanced resistance to fibrinogen deposition, biofilm formation, and encrustation, reducing the risks associated with catheter-associated urinary tract infections and obstruction.
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聚合物涂层导尿管可减少生物膜形成和生物矿化:首例前瞻性试点研究
导尿管上生物膜的形成和生物矿化可能会导致严重的并发症,包括感染和阻塞。在此,我们介绍了对涂有抗生物膜聚合物的硅胶导尿管进行的体外评估和前瞻性试点临床研究。 使用荧光标记细菌或生物膜和矿物质染色,通过共聚焦显微镜对未涂层和涂层导尿管上的生物膜生物量和生物矿化进行量化。使用扫描电子显微镜和 X 射线光谱法确定生物矿物质的特征。利用泌尿病原体奇异变形杆菌和铜绿假单胞菌以及从住院患者身上回收的导管,在体外对生物膜的形成和生物矿化进行了评估。使用免疫荧光检测法对患者尿液和导管中的纤维蛋白原进行了量化。 在膀胱模型中,与未涂层导管相比,体外奇异变形杆菌和铜绿假单胞菌形成的生物膜和生物矿化物明显较少,且在 89 小时后未能阻塞涂层导管。与未涂层硅胶导管(n = 78)相比,从住院患者身上回收的抗生物膜聚合物涂层导管(n = 83)显示出明显较低的生物膜生物量和生物矿化。对回收的导管进行电子显微镜和元素分析后发现,与未涂层导管上与导管堵塞有关的结石和磷灰石晶体相比,涂层导管上有草酸钙晶体。与接受未涂层导管的患者相比,接受涂层导管的患者导管术后尿液和导管上的生物膜促进纤维蛋白原水平较低,这表明炎症反应有所减轻。 这些数据证明,有聚合物涂层的导尿管对纤维蛋白原沉积、生物膜形成和结壳有更强的抵抗力,从而降低了导尿管相关尿路感染和梗阻的风险。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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