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利用由改性藻酸盐、明胶和生物活性玻璃组成的复合水凝胶设计具有增强力学性能的多孔骨组织工程支架。

Designing Porous Bone Tissue Engineering Scaffolds with Enhanced Mechanical Properties from Composite Hydrogels Composed of Modified Alginate, Gelatin, and Bioactive Glass.

作者信息

Sarker Bapi, Li Wei, Zheng Kai, Detsch Rainer, Boccaccini Aldo R

机构信息

Institute of Biomaterials, Department of Materials Science and Engineering, University of Erlangen-Nuremberg, Cauerstrasse 6, 91058 Erlangen, Germany.

出版信息

ACS Biomater Sci Eng. 2016 Dec 12;2(12):2240-2254. doi: 10.1021/acsbiomaterials.6b00470. Epub 2016 Oct 21.

DOI:10.1021/acsbiomaterials.6b00470
PMID:33465897
Abstract

The combination of biodegradable polymers and bioactive inorganic materials is being widely used for designing bone tissue engineering scaffolds. Here we report a composite hydrogel system composed of bioactive glass incorporated in covalently cross-linked oxidized alginate-gelatin hydrogel (ADA-GEL) for designing porous scaffolds with tunable stiffness and degradability using freeze-drying technique. Because of the presence of bioactive glass, the cross-linking kinetic and cross-linking degree of the hydrogels are significantly increased, which is the main factor for the measured enhanced mechanical strength of the bioactive glass containing ADA-GEL scaffolds. The hydrogels with high cross-linking degree exhibit low protein release profile and low degradability. Apatite formation on bioactive glass containing hydrogel-based scaffolds is confirmed by FTIR. Bone marrow-derived stromal cell growth is promoted in pristine ADA-GEL and 1% bioactive glass containing ADA-GEL scaffolds compared to the scaffolds of pure alginate, alginate-gelatin blended hydrogel, and 5% bioactive glass containing ADA-GEL. Initial studies indicated that the scaffolds, especially without bioactive glass, support osteogenic differentiation of murine bone marrow stromal cell line in the absence of foreign osteogenic stimulating supplements; however, they exhibit low levels of osteogenic expression.

摘要

可生物降解聚合物与生物活性无机材料的组合正被广泛用于设计骨组织工程支架。在此,我们报道了一种复合水凝胶系统,该系统由共价交联的氧化藻酸盐 - 明胶水凝胶(ADA - GEL)中掺入生物活性玻璃组成,用于使用冷冻干燥技术设计具有可调刚度和降解性的多孔支架。由于生物活性玻璃的存在,水凝胶的交联动力学和交联度显著增加,这是含生物活性玻璃的ADA - GEL支架机械强度增强的主要因素。具有高交联度的水凝胶表现出低蛋白释放曲线和低降解性。通过傅里叶变换红外光谱(FTIR)证实了含生物活性玻璃的水凝胶基支架上磷灰石的形成。与纯藻酸盐支架、藻酸盐 - 明胶混合水凝胶支架以及含5%生物活性玻璃的ADA - GEL支架相比,原始ADA - GEL和含1%生物活性玻璃的ADA - GEL支架促进了骨髓来源的基质细胞生长。初步研究表明,这些支架,尤其是不含生物活性玻璃的支架,在没有外源成骨刺激补充剂的情况下支持小鼠骨髓基质细胞系的成骨分化;然而,它们表现出低水平的成骨表达。

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