Design of silicone interfaces with antibacterial properties.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2023-05-01 Epub Date: 2023-06-30 DOI:10.1080/08927014.2023.2228206

Marie Barshutina, Dmitry Yakubovsky, Roman Kirtaev, Valentyn Volkov, Aleksey Arsenin, Anastasiya Vladimirova, Andrei Baymiev, Sergey Barshutin

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Abstract

Silicone implants are widely used for plastic or reconstruction medical applications. However, they can cause severe infections of inner tissues due to bacterial adhesion and biofilm growth on implant surfaces. The development of new antibacterial nanostructured surfaces can be considered as the most promising strategy to deal with this problem. In this article, we studied the influence of nanostructuring parameters on the antibacterial properties of silicone surfaces. Nanostructured silicone substrates with nanopillars of various dimensions were fabricated using a simple soft lithography technique. Upon testing of the obtained substrates, we identified the optimal parameters of silicone nanostructures to achieve the most pronounced antibacterial effect against the bacterial culture of Escherichia coli. It was demonstrated that up to 90% reduction in bacterial population compared to flat silicone substrates can be achieved. We also discussed possible underlying mechanisms behind the observed antibacterial effect, the understanding of which is essential for further progress in this field.

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具有抗菌性能的有机硅界面设计。

硅胶植入物广泛用于整形或重建医疗应用。然而，由于植入物表面的细菌粘附和生物膜生长，它们可能会导致内部组织的严重感染。开发新型抗菌纳米结构表面可以被认为是解决这一问题最有希望的策略。本文研究了纳米结构参数对有机硅表面抗菌性能的影响。采用简单的软光刻技术制备了具有不同尺寸纳米柱的纳米结构硅衬底。在对所获得的底物进行测试后，我们确定了有机硅纳米结构的最佳参数，以实现对大肠杆菌细菌培养物最显著的抗菌效果。研究表明，与平坦的有机硅基底相比，细菌数量可以减少90%。我们还讨论了观察到的抗菌作用背后可能的潜在机制，对其的理解对该领域的进一步进展至关重要。

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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