Recent advances of collagen composite biomaterials for biomedical engineering: antibacterial functionalization and 3D-printed architecturalization

Lu Zheng, Natalya Tseomashko, Anastasiia Voronova, Alexander Vasil’kov, Xiaoqing Hu, Xiaoying Wang
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Abstract

Collagen possesses high biocompatibility with all tissue and cell types in the body, enabling the creation of multifunctional composite materials for medical applications. In biomedical engineering, naturally-sourced collagen is often combined with diverse organic and inorganic bioactive components to eliminate defects and disorders in fields including orthopedics, dermatology, and more. At the same time, medical-related infection issues and the precise treatment needs of patients require collagen composite biomaterials to have antibacterial properties and customized structures. This paper reviews the antibacterial functionalization of collagen composite biomaterials in recent years, including the combination with inorganic or organic antibacterial agents, which is beneficial for preventing and controlling biological contamination in medical applications. Then, the existing problems and future development directions for the architecturalization of collagen composite materials with 3D printing were discussed, providing guidance for personalized customization of multifunctional materials to meet the specific needs of patients in the future.

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用于生物医学工程的胶原复合生物材料的最新进展:抗菌功能化和三维打印结构化
胶原蛋白与人体内所有组织和细胞类型都具有很高的生物相容性,因此可以制造出用于医疗应用的多功能复合材料。在生物医学工程中,天然胶原蛋白通常与各种有机和无机生物活性成分相结合,以消除骨科、皮肤科等领域的缺陷和疾病。与此同时,医疗相关的感染问题和患者的精确治疗需求要求胶原蛋白复合生物材料具有抗菌性能和定制结构。本文回顾了近年来胶原蛋白复合生物材料的抗菌功能化,包括与无机或有机抗菌剂的结合,这有利于预防和控制医疗应用中的生物污染。然后,讨论了利用3D打印技术对胶原蛋白复合材料进行建筑化的现有问题和未来发展方向,为未来个性化定制多功能材料以满足患者的特殊需求提供指导。
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来源期刊
Journal of Leather Science and Engineering
Journal of Leather Science and Engineering 工程技术-材料科学:综合
CiteScore
12.80
自引率
0.00%
发文量
29
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