颌面外科水凝胶材料的合成及抗菌性能研究

Y. M. Samchenko, S. Dybkova, L. Reznichenko, L. Kernosenko, T. Gruzina, T. P. Poltoratska, O. B. Liutko, K. Vitrak, V. I. Podolska, P. V. Vorotytskyi
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引用次数: 0

摘要

人工假体是细菌粘附和随后形成生物膜的有利环境,从而加速了假体植入区域感染的发展。尽管在过去几十年中,各种假体的开发取得了重大进展,但假体周围细菌感染仍是导致假体使用并发症、康复时间延长和重大经济损失的主要因素之一。本研究致力于开发具有复合抗菌作用的混合水凝胶纳米复合材料,用于颌面部假体修复和填充术后空腔(主要是肿瘤切除后)。这些纳米复合材料是在预先合成的海绵状聚乙烯甲醛和封装金纳米粒子的基础上制成的,其孔隙部分由吸附了 Albucid 的基于丙烯酸(或基于丙烯酰胺和丙烯酸的共聚物)的 pH 值敏感水凝胶填充。红外光谱证实了合成的混合水凝胶材料的结构。对水凝胶在不同 pH 值的缓冲溶液中溶胀的动力学研究表明,填充了丙烯酰胺和丙烯酸共聚物(其比例为 95:5)的样品具有保持材料几何尺寸的最佳特性,可用于前列腺内假体,而在加入 100 % 丙烯酸的情况下,材料的溶胀程度(以及其尺寸)会随着 рН 的变化而发生显著变化。使用以下细菌培养物研究了所开发混合水凝胶材料的抗菌效果:大肠杆菌 ATCC 25922、粪肠球菌 ATCC 29213、金黄色葡萄球菌 ATCC 25923 和绿脓杆菌 ATCC 27853。用 Albucid 饱和金纳米粒子制成的聚乙烯基甲醛复合材料对所有测试微生物都有抗菌效果(生长抑制区范围为 15 至 35 毫米),这将防止所开发的混合水凝胶材料在用于假体内腔时受到微生物污染。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Synthesis and study on antimicrobial properties of hydrogel materials for maxillo-facial surgery
Artificial implants are a favorable environment for bacterial adhesion and subsequent biofilm formation, thereby accelerating the development of infection in the area of implant incorporation. Despite significant progress in the development of various endoprostheses over the past decades, bacterial periprosthetic infection is one of the main factors leading to complications in their use, prolongation of rehabilitation, and significant economic losses. The present work is devoted to the creation of hybrid hydrogel nanocomposites with complex antimicrobial action for endoprosthetics in the maxillofacial region and for filling postoperative cavities (primarily after tumor removal). These nanocomposites were created on the basis of pre-synthesized spongy polyvinylformal with encapsulated gold nanoparticles, the pore space of which was partially filled with pH-sensitive hydrogels based on acrylic acid (or copolymers based on acrylamide and acrylic acid) with sorbed Albucid. The structure of the synthesized hybrid hydrogel materials was confirmed by IR spectroscopy. Studies of the kinetics of hydrogel swelling in buffer solutions with different pH values have shown that the sample filled with a copolymer of acrylamide and acrylic acid with their ratio 95:5 has the optimal properties for preserving the geometric dimensions of the material for endoprosthetics, while in the case of incorporation of 100 % acrylic acid, the degree of swelling of the material (and, respectively, its dimensions) can vary significantly with a change of рН. Antimicrobial effect of the developed hybrid hydrogel materials was investigated using the following bacterial cultures: Escherichia coli ATCC 25922, Enterococcus faecalis ATCC 29213, Staphylococcus aureus ATCC 25923, and Pseudomonas aeruginosa ATCC 27853. The antibacterial effect of polyvinylformal-based composites with incorporated gold nanoparticles that were saturated with Albucid on all test microorganisms was demonstrated (growth inhibition zones ranged from 15 to 35 mm), which will prevent microbial contamination of the developed hybrid hydrogel material when it is used in endoprosthesis.
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