Faculty of Biotechnology and Food Engineering, Technion-Israel Institute of Technology, Haifa 32000, Israel.
Food Microbiol. 2013 Aug;35(1):65-72. doi: 10.1016/j.fm.2013.02.005. Epub 2013 Feb 26.
Bacterial colonization and biofilm formation on stainless steel (SS) surfaces can be sources for cross contamination in food processing facilities, possessing a great threat to public health and food quality. Here the aim was to demonstrate the influence of surface finish of AISI 316 SS on colonization, biofilm formation and susceptibility of Salmonella Typhimurium to disinfection. Initial attachment of S. Typhimurium on surfaces of SS was four times lower, when surface was polished by Bright-Alum (BA) or Electropolishing (EP), as compared to Mechanical Sanded (MS) or the untreated surface (NT). The correlation between roughness and initial bacterial attachment couldn't account on its own to explain differences seen. Biofilms with similar thickness (15-18 μm) were developed on all surfaces 1-day post inoculation, whereas EP was the least covered surface (23%). Following 5-days, biofilm thickness was lowest on EP and MS (30 μm) and highest on NT (62 μm) surfaces. An analysis of surface composition suggested a link between surface chemistry and biofilm development, where the higher concentrations of metal ions in EP and MS surfaces correlated with limited biofilm formation. Interestingly, disinfection of biofilms with chlorine was up to 130 times more effective on the EP surface (0.005% surviving) than on the other surfaces. Overall these results suggest that surface finish should be considered carefully in a food processing plant.
不锈钢(SS)表面的细菌定植和生物膜形成可能是食品加工设施中交叉污染的来源,对公众健康和食品质量构成巨大威胁。本研究旨在探讨 AISI 316 SS 表面光洁度对鼠伤寒沙门氏菌定植、生物膜形成和消毒敏感性的影响。与机械打磨(MS)或未处理表面(NT)相比,经亮面氧化铝(BA)或电化学抛光(EP)抛光后的 SS 表面,鼠伤寒沙门氏菌的初始附着减少了四倍。粗糙度与初始细菌附着之间的相关性本身并不能完全解释观察到的差异。接种后 1 天,所有表面均形成了厚度相似(15-18μm)的生物膜,而 EP 是覆盖最少的表面(23%)。5 天后,EP 和 MS 表面的生物膜厚度最低(30μm),NT 表面的生物膜厚度最高(62μm)。表面成分分析表明,表面化学性质与生物膜形成之间存在关联,EP 和 MS 表面金属离子浓度较高与生物膜形成受限相关。有趣的是,用氯消毒生物膜时,EP 表面(存活 0.005%)的效果比其他表面高 130 倍。总体而言,这些结果表明,在食品加工厂中应仔细考虑表面光洁度。
