Biocompatibility and Antibacterial Potential of Tetrahedral Amorphous Carbon (ta-C) Coatings on CoCrMo Alloy for Articulating Implant Surfaces.

Patrick Fabisch, Vadym Voropai, Maren Nieher, Adrian Buchholz, Steffen Weissmantel, Christoph H Lohmann, Jessica Bertrand, Joachim Döring
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Abstract

Premature implant failure, a critical concern in biomedical applications, is often attributed to poor biocompatibility and vulnerability to bacterial colonization. These issues are addressed by creating an endoprosthetic material with natural biocompatibility and antibacterial properties. In this in vitro study, the relaxed and unrelaxed tetrahedral amorphous carbon (ta-C) coatings were examined, both fabricated by the improved patented Pulsed Laser Deposition (PLD) technology. The chemical composition, surface roughness, hardness, topography, and wettability were analyzed. The ta-C surfaces were incubated by MM6 cells, E. coli and S. capitis bacteria for 24 h. PCR assessed the inflammatory response in MM6 cells, while fluorescence microscopy quantified adhering bacteria, and scanning electron microscopy examined local adhesion behavior. The results demonstrate comparable carbon phase composition, wettability properties, and hardness for both relaxed and unrelaxed ta-C. However, relaxed ta-C coating exhibited significantly fewer defects in terms of both quantity and quality, along with an antibacterial effect against E. coli. This suggests that the relaxed ta-C coating could contribute to the development of an endoprosthesis, preventing adverse biological reactions and implant-related infections, thus improving the longevity of the prosthesis.

用于关节植入物表面的 CoCrMo 合金四面体无定形碳 (ta-C) 涂层的生物相容性和抗菌潜力。
植入物过早失效是生物医学应用中的一个重要问题,其原因通常是生物相容性差和容易被细菌定植。要解决这些问题,就要创造一种具有天然生物相容性和抗菌特性的假体材料。在这项体外研究中,我们检测了松弛和未松弛的四面体无定形碳(ta-C)涂层,这两种涂层都是通过改进的专利脉冲激光沉积(PLD)技术制造的。对涂层的化学成分、表面粗糙度、硬度、形貌和润湿性进行了分析。PCR 评估 MM6 细胞的炎症反应,荧光显微镜量化附着的细菌,扫描电子显微镜检查局部粘附行为。结果表明,松弛和未松弛的ta-C具有相似的碳相组成、润湿性能和硬度。然而,松弛的 ta-C 涂层在数量和质量上的缺陷都明显较少,而且对大肠杆菌具有抗菌效果。这表明,松弛的ta-C 涂层可有助于假体的开发,防止不良生物反应和与植入物相关的感染,从而延长假体的使用寿命。
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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