Department of Physics, University of Kuopio, Kuopio, Finland.
Colloids Surf B Biointerfaces. 2013 Jan 1;101:290-7. doi: 10.1016/j.colsurfb.2012.07.012. Epub 2012 Jul 20.
Staphylococcus epidermidis and Staphylococcus aureus cause most of the implant-related infections. Antibiotic treatment often fails and cure requires surgical intervention. It was hypothesized that biomaterial coatings resistant to biofilms offer a preventive option. Physical vapour deposited diamond-like carbon (DLC) and its polytetrafluoroethylene (DLC-PTFE-h) and polydimethylsiloxane (DLC-PDMS-h) hybrids were compared to titanium (Ti), tantalum (Ta) and chromium (Cr) thin films on silicon wafers for their resistance against formation and/or retention of biofilms produced by S. epidermidis and S. aureus in vitro. Sample surfaces were characterized for surface topography, contact angle and zeta-potential, because such properties might affect the biofilm. Biofilm was stained using calcofluor white and analysed in fluorescence microscopy using morphometry. Sixteen hour incubation was selected in pilot tests; at this checkpoint Ti, Ta, Cr and DLC-PDMS-h were almost fully covered by biofilm, but DLC and DLC-PTFE-h were only partially biofilm coated by S. epidermidis (88±26%, p<0.001 and 56±39%, p<0.001, respectively) or S. aureus (81±24%, p<0.001 and 51±26%, p<0.001, respectively). DLC and its PTFE hybrid offer a potential biofilm hostile surface coating for implants and medical devices. This ability to resist biofilm formation and attachment could not be explained by only one factor, but it seems to be related to a combination of various properties, with electrokinetic streaming potential and protein coating being particularly important for its outcome.
表皮葡萄球菌和金黄色葡萄球菌引起了大多数与植入物相关的感染。抗生素治疗往往失败,治愈需要手术干预。人们假设,抗生物膜的生物材料涂层提供了一种预防选择。在体外比较了物理气相沉积的类金刚石碳(DLC)及其聚四氟乙烯(DLC-PTFE-h)和聚二甲基硅氧烷(DLC-PDMS-h)杂化物与钛(Ti)、钽(Ta)和铬(Cr)薄膜,以评估它们对表皮葡萄球菌和金黄色葡萄球菌生物膜形成和/或保留的抗性。对样品表面进行了表面形貌、接触角和zeta 电位的特性分析,因为这些特性可能会影响生物膜。使用荧光显微镜使用形态计量学对生物膜进行了 Calcofluor 白色染色和分析。在初步试验中选择了 16 小时的孵育时间;在这个时间点,Ti、Ta、Cr 和 DLC-PDMS-h 几乎完全被生物膜覆盖,但 DLC 和 DLC-PTFE-h 仅被表皮葡萄球菌(88±26%,p<0.001 和 56±39%,p<0.001,分别)或金黄色葡萄球菌(81±24%,p<0.001 和 51±26%,p<0.001,分别)部分生物膜覆盖。DLC 及其 PTFE 杂化物可为植入物和医疗器械提供潜在的抗生物膜表面涂层。这种抵抗生物膜形成和附着的能力不能仅用一个因素来解释,它似乎与各种特性的结合有关,其中电动流动电势和蛋白质涂层对其结果尤为重要。
