氧化魔芋葡甘露聚糖交联猪腹膜:改善心血管替代材料性能的新方法

Xu Peng, Li Li, Jiaqi Xing, Can Cheng, Mengyue Hu, Yihao Luo, Shubin Shi, Yan Liu, Zhihui Cui, Xixun Yu
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引用次数: 1

摘要

利用天然多糖交联剂制备脱细胞基质是制备心血管替代材料的有效途径。本研究以NaIO4氧化魔芋葡甘露聚糖制备多糖交联剂氧化魔芋葡甘露聚糖(OKGM)。将制备的交联剂用于稳定富胶原脱细胞猪腹膜(DPP),构建心血管替代材料(OKGM-fixed DPP)。结果表明,与ga固定DPP和gnp固定DPP相比,3.75% OKGM [1:1.5 (KGM: NaIO4)]固定DPP具有合适的力学性能、良好的血液相容性、优异的抗钙化能力和体外抗酶解能力。3.75% OKGM [1:1.5 (KGM: NaIO4)]固定的DPP适合血管内皮细胞粘附和快速增殖,培养第5天形成单层内皮细胞。体内实验结果也显示出良好的组织相容性。本研究结果表明,OKGM是一种新型的多糖交联试剂,可用于交联胶原含量丰富的天然组织,3.75% OKGM [1:1.5 (KGM: NaIO4)]-固定DPP是一种潜在的心血管替代材料。图形抽象
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Cross-linking porcine peritoneum by oxidized konjac glucomannan: a novel method to improve the properties of cardiovascular substitute material

The use of natural polysaccharide crosslinkers for decellularized matrices is an effective approach to prepare cardiovascular substitute materials. In this research, NaIO4 was applied to oxidize konjac glucomannan to prepare the polysaccharide crosslinker oxidized konjac glucomannan (OKGM). The as-prepared crosslinker was then used to stabilize collagen-rich decellularized porcine peritoneum (DPP) to construct a cardiovascular substitute material (OKGM-fixed DPP). The results demonstrated that compared with GA-fixed DPP and GNP-fixed DPP, 3.75% OKGM [1:1.5 (KGM: NaIO4)]-fixed DPP demonstrated suitable mechanical properties, as well as good hemocompatibility, excellent anti-calcification capability, and anti-enzymolysis in vitro. Furthermore, 3.75% OKGM [1:1.5 (KGM: NaIO4)]-fixed DPP was suitable for vascular endothelial cell adhesion and rapid proliferation, and a single layer of endothelial cells was formed on the fifth day of culture. The in vivo experimental results also showed excellent histocompatibility. The current results demonstrted that OKGM was a novel polysaccharide cross-linking reagent for crosslinking natural tissues featured with rich collagen content, and 3.75% OKGM [1:1.5 (KGM: NaIO4)]-fixed DPP was a potential cardiovascular substitute material.

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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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