Multi-functional epoxides cross-linked collagen sponges for tissue engineering scaffolds

Yuanzhi Zhang, Changkai Yang, Min Gu, Xiaoxia Zhang, Xueqing Zhang, Guoying Li
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Abstract

With the efficient cross-linking abilities and the flexible regulation abilities to the performances of cross-linked products, the multi-functional aliphatic epoxides were once widely used to cross-link the collagen-based materials in the last century. In present work, the multi-functional epoxides were used to construct and cross-link collagen sponges for tissue engineering scaffolds, which was hoped to board the theoretical system of epoxides and explore their potentials for modern applications. The bi- to tetra-functional epoxides were used to cross-link collagen solutions and establish the gel-like precursors, then using freeze-drying to form the final sponges. The SEM observed that the sponges had shown regular porous structures with a wide range of pore sizes from 160 to 440 μm. The sponges had presented the resistance to enzymatic degradation, shape-remaining ability, and reversible compressibility in aqueous environments, which all could be regulated through the functionalities of epoxides. The regulation abilities of multi-functional epoxides on the performances of sponges had been mainly achieved through the cross-linking degrees that the higher functionality of epoxides would bring higher cross-linking degree. Such higher cross-linking degrees could enhance the elastic behaviors of gel-like precursors, and improve the compressive strengths and thermal stabilities of sponges. Nevertheless, the multi-functional epoxides had barely affected the safety of collagen sponges at the cellular level according to the results of CCK8 assay and the SEM and CLSM images of L929 fibroblasts cultured on the cross-sections of sponges.

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组织工程支架用多功能环氧化合物交联胶原蛋白海绵
多功能脂肪族环氧化合物由于其高效的交联能力和对交联产物性能的灵活调节能力,在上个世纪曾被广泛应用于胶原基材料的交联。本研究利用多功能环氧化物构建并交联胶原海绵用于组织工程支架,希望能进一步完善环氧化物的理论体系,探索其现代应用潜力。用双功能到四功能环氧化物交联胶原蛋白溶液并建立凝胶状前体,然后用冷冻干燥形成最终的海绵。扫描电镜观察到海绵具有规则的孔隙结构,孔径范围为160 ~ 440 μm。海绵具有抗酶降解能力、保持形状的能力和在水环境中的可逆压缩性,这些都可以通过环氧化物的功能来调节。多功能环氧化物对海绵性能的调节能力主要是通过交联度来实现的,环氧化物的功能化程度越高,交联度越高。较高的交联度可以增强凝胶状前驱体的弹性行为,提高海绵的抗压强度和热稳定性。然而,根据CCK8测定结果和海绵横截面培养的L929成纤维细胞的SEM和CLSM图像,多功能环氧化物在细胞水平上几乎没有影响胶原海绵的安全性。图形抽象
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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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