Jhaleh Amirian, Jacek K Wychowaniec, Matteo D Este, Andrea J Vernengo, Anastasija Metlova, Antons Sizovs, Agnese Brangule, Dace Bandere
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引用次数: 0
摘要
具有良好生物相容性和生物降解性的复合生物材料在组织工程中至关重要。本研究利用甲基丙烯酸蚕丝纤维素(SFMA)和甲基丙烯酸透明质酸(HAMA)制备了一种蛋白质和多糖光交联复合水凝胶。SFMA 由脱胶 SF 与甲基丙烯酸缩水甘油酯(GMA)进行甲基丙烯酸化而得,而 HA 则由甲基丙烯酸 2-氨基乙酯盐酸盐(AEMA)进行甲基丙烯酸化。我们研究了在 5、10 和 20 wt % SFMA 中添加 1 wt % HAMA 的效果,结果显示静态和循环机械强度都有所提高。所有复合水凝胶在紫外光下都会凝胶化。
Preparation and Characterization of Photo-Cross-Linkable Methacrylated Silk Fibroin and Methacrylated Hyaluronic Acid Composite Hydrogels.
Composite biomaterials with excellent biocompatibility and biodegradability are crucial in tissue engineering. In this work, a composite protein and polysaccharide photo-cross-linkable hydrogel was prepared using silk fibroin methacrylate (SFMA) and hyaluronic acid methacrylate (HAMA). SFMA was obtained by the methacrylation of degummed SF with glycidyl methacrylate (GMA), while HA was methacrylated by 2-aminoethyl methacrylate hydrochloride (AEMA). We investigated the effect of the addition of 1 wt % HAMA to 5, 10, and 20 wt % SFMA, which resulted in an increase in both static and cycling mechanical strengths. All composite hydrogels gelled under UV light in <30 s, allowing for rapid stabilization and stiffness increases. The biocompatibility of the hydrogels was confirmed by direct and indirect contact methods and by evaluation against the NIH3T3 and MC3T3 cell lines with a live-dead assay by confocal imaging. The range of obtained mechanical properties from developed composite and UV-cross-linkable hydrogels sets the basis as possible future biomaterials for various biomedical applications.
期刊介绍:
Biomacromolecules is a leading forum for the dissemination of cutting-edge research at the interface of polymer science and biology. Submissions to Biomacromolecules should contain strong elements of innovation in terms of macromolecular design, synthesis and characterization, or in the application of polymer materials to biology and medicine.
Topics covered by Biomacromolecules include, but are not exclusively limited to: sustainable polymers, polymers based on natural and renewable resources, degradable polymers, polymer conjugates, polymeric drugs, polymers in biocatalysis, biomacromolecular assembly, biomimetic polymers, polymer-biomineral hybrids, biomimetic-polymer processing, polymer recycling, bioactive polymer surfaces, original polymer design for biomedical applications such as immunotherapy, drug delivery, gene delivery, antimicrobial applications, diagnostic imaging and biosensing, polymers in tissue engineering and regenerative medicine, polymeric scaffolds and hydrogels for cell culture and delivery.
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