基于纤维蛋白的仿生骨支架上的间充质干细胞生长及其力学性能

Mesenchymal stem cell growth on and mechanical properties of fibrin-based biomimetic bone scaffolds.

作者信息

Linsley Chase S, Wu Benjamin M, Tawil Bill

机构信息

Department of Bioengineering, University of California, Los Angeles, Los Angeles, California, 90095.

Division of Advanced Prosthodontics and the Weintraub Center for Reconstructive Biotechnology, University of California, Los Angeles, Los Angeles, California, 90095.

出版信息

J Biomed Mater Res A. 2016 Dec;104(12):2945-2953. doi: 10.1002/jbm.a.35840. Epub 2016 Aug 1.

DOI:10.1002/jbm.a.35840

PMID:27449538

Abstract

Using the microenvironment of healing bone tissue as inspiration, this study utilized fibrin hydrogels combined with collagen type I and calcium phosphate ceramics to create a biomimetic bone scaffold. The contribution each component had on the growth of mesenchymal stem cells (hMSC) was assessed, and changes in the scaffold's mechanical properties were measured by indentation testing. The results show cell growth was greatest in scaffolds with lower concentrations of fibrinogen complex and followed a similar trend with the addition of collagen. However, cell growth was greatest in fibrin scaffolds with high concentrations of fibrinogen complex when combined with hydroxyapatite-β-tricalcium phosphate. The fibrin scaffold's stiffness does not significantly change over time, but the addition of collagen to scaffolds with low concentrations of fibrinogen complex had significant increases in stiffness by day 14. These results demonstrate that hMSC do not rapidly degrade fibrin and fibrin-collagen scaffolds in vitro. The data reported here can aid in the design and fabrication of fibrin-based engineered tissues and cell delivery vehicles that promote hMSC growth and viability as well as meet the mechanical requirements of native tissues. © 2016 Wiley Periodicals, Inc. J Biomed Mater Res Part A: 104A: 2945-2953, 2016.

摘要

本研究以愈合骨组织的微环境为灵感，利用纤维蛋白水凝胶与I型胶原蛋白和磷酸钙陶瓷相结合，制备了一种仿生骨支架。评估了各组分对间充质干细胞（hMSC）生长的贡献，并通过压痕测试测量了支架力学性能的变化。结果表明，在纤维蛋白原复合物浓度较低的支架中细胞生长最为显著，添加胶原蛋白后也呈现类似趋势。然而，当与羟基磷灰石-β-磷酸三钙结合时，在纤维蛋白原复合物浓度较高的纤维蛋白支架中细胞生长最为显著。纤维蛋白支架的硬度不会随时间显著变化，但在第14天时，向纤维蛋白原复合物浓度较低的支架中添加胶原蛋白会使硬度显著增加。这些结果表明，hMSC在体外不会快速降解纤维蛋白和纤维蛋白-胶原蛋白支架。本文报道的数据有助于设计和制造基于纤维蛋白的工程组织和细胞递送载体，以促进hMSC的生长和存活，并满足天然组织的力学要求。© 2016威利期刊公司。《生物医学材料研究杂志》A部分：104A：2945 - 2953，2016年。

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基于纤维蛋白的仿生骨支架上的间充质干细胞生长及其力学性能

Mesenchymal stem cell growth on and mechanical properties of fibrin-based biomimetic bone scaffolds.

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