Role of bile mucin in bacterial adherence to biliary stents.

Hongjun Zhang, T. Tsang, C. A. Jack, J. Pollack
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引用次数: 20

Abstract

Biliary stent placement is a well-established method of relieving obstructive jaundice. However, a frequent complication is occlusion of the stent caused by bacterial biofilm formation and sludge accumulation. In this study we investigated the possible effect of bile mucin on bacterial adherence to biliary stents at the initial stage of biofilm formation. By means of an in vitro bile-perfusion system, polyethylene stents were perfused with pig gallbladder bile infected with Escherichia coli. The concentrations of mucin in the pig bile were adjusted with purified mucin. The amount of bacteria adhering to the inner surface of the stents was measured and compared for stents perfused with bile containing various concentrations of mucin. Furthermore, we conditioned the stent inner surface with purified pig bile mucin and observed the effect of the conditioning on subsequent bacterial adherence. In addition, a common method for assaying bacterial adhesion with polystyrene microtiter plates was also used in this study. The results demonstrated that more bacteria adhered to the inner surface of stents perfused with bile containing 5 mg/mL mucin than of those perfused with bile containing 0.5 and 0 mg/mL mucin. Increased bacterial adherence was demonstrated on the stent surfaces conditioned with purified mucin compared with that seen on the nonconditioned stent surfaces. The optical densities indicating bacterial adhesion in the microtiter plate wells precoated with mucin were higher than those in non-coated plate wells. The in vitro results indicate that when a biliary stent is implanted in vivo, mucin in bile may condition the stent inner surface, modulate subsequent bacterial adherence to the surface, and participate in stent occlusion.
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胆粘蛋白在胆道支架细菌粘附中的作用。
胆道支架置入术是缓解梗阻性黄疸的一种行之有效的方法。然而,一个常见的并发症是由细菌生物膜形成和污泥堆积引起的支架闭塞。在这项研究中,我们研究了胆粘蛋白在生物膜形成初期对细菌粘附在胆道支架上的可能影响。采用体外胆汁灌注系统,用感染大肠杆菌的猪胆囊胆汁灌注聚乙烯支架。用纯化的粘蛋白调节猪胆汁中粘蛋白的浓度。对灌注含有不同黏液浓度的胆汁的支架,测量并比较支架内表面粘附的细菌数量。此外,我们用纯化的猪胆汁粘蛋白调节支架内表面,观察调节对随后细菌粘附的影响。此外,本研究还采用了用聚苯乙烯微滴板测定细菌粘附的常用方法。结果表明,5 mg/mL粘液蛋白灌注的胆汁比0.5 mg/mL和0 mg/mL粘液蛋白灌注的胆汁粘附在支架内表面的细菌更多。与非条件支架表面相比,经纯化黏液处理的支架表面细菌粘附性增加。涂有粘蛋白的微滴板孔中细菌粘附的光密度高于未涂有粘蛋白的微滴板孔。体外实验结果表明,当胆道支架在体内植入时,胆汁中的粘蛋白可能调节支架内表面,调节随后细菌对表面的粘附,并参与支架阻塞。
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