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含氟聚合物与不锈钢、玻璃和聚丙烯在微生物生物膜附着与去除方面的比较。

Comparison of fluorinated polymers against stainless steel, glass and polypropylene in microbial biofilm adherence and removal.

作者信息

Hyde F W, Alberg M, Smith K

机构信息

Hyde and Associates Biotechnology Consulting, White Bear Lake, MN 55110, USA.

出版信息

J Ind Microbiol Biotechnol. 1997 Aug;19(2):142-9. doi: 10.1038/sj.jim.2900448.

Abstract

Biofilm formation is a long-standing problem in ultrapure water and bioprocess fluid transport lines. The standard materials used in these applications (316L stainless steel, polypropylene and glass) have long been known to be good surfaces for the attachment of bacteria and other biological materials. To compare the relative tenacity of biofilms grown on materials used in manufacturing processes, a model system for biofilm attachment was constructed that approximates the conditions in industrial process systems. New fluorinated polymers were compared to the above materials by evaluating the surface area coverage of bacterial populations on materials before and after mild chemical treatment. In addition, contact angle studies compared the relative hydrophobicity of surfaces to suspensions of bacteria in growth media, and scanning electron microscopy and atomic force microscopy studies were used to characterize surface smoothness and surface defects. Biofilm adherence to polymer-based substrata was determined to be a function of both surface finish and surface chemistry. Specifically, materials that are less chemically reactive, as indicated by higher contact angle, can have rougher surface finishes and still be amenable to biofilm removal.

摘要

生物膜的形成是超纯水和生物过程流体输送管道中长期存在的问题。长期以来,人们都知道这些应用中使用的标准材料(316L不锈钢、聚丙烯和玻璃)是细菌和其他生物材料附着的良好表面。为了比较在制造过程中使用的材料上生长的生物膜的相对韧性,构建了一个生物膜附着的模型系统,该系统近似于工业过程系统中的条件。通过评估温和化学处理前后材料上细菌群体的表面积覆盖率,将新型含氟聚合物与上述材料进行了比较。此外,接触角研究比较了表面与生长培养基中细菌悬浮液的相对疏水性,扫描电子显微镜和原子力显微镜研究用于表征表面光滑度和表面缺陷。生物膜对聚合物基底层的粘附被确定为表面光洁度和表面化学性质的函数。具体而言,如较高接触角所示,化学反应性较低的材料可以具有更粗糙的表面光洁度,并且仍然易于去除生物膜。

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