Degradation-Kinetics-Controllable and Tissue-Regeneration-Matchable Photocross-linked Alginate Hydrogels for Bone Repair

自愈水凝胶 材料科学 生物相容性 生物医学工程 组织工程 体内 再生(生物学) 间质细胞 动力学 降级(电信) 骨组织 纳米技术 生物物理学 高分子化学 细胞生物学 医学 生物 物理 生物技术 电信 冶金 量子力学 癌症研究 计算机科学
作者
Delu Zhao,Xin Wang,Bo Cheng,Miao-Miao Yin,Zhiqiang Hou,Xiaobao Li,Kun Liu,Chaorong Tie,Miao Yin
出处
期刊:ACS Applied Materials & Interfaces [American Chemical Society]
卷期号:14 (19): 21886-21905 被引量:64
标识
DOI:10.1021/acsami.2c01739
摘要

Photocross-linked alginate hydrogels, due to their biodegradability, biocompatibility, strong control for gelling kinetics in space and time, and admirable adaptability for in situ polymerization with a minimally invasive approach in surgical procedures, have created great expectations in bone regeneration. However, hydrogels with suitable degradation kinetics that can match the tissue regeneration process have not been designed, which limits their further application in bone tissue engineering. Herein, we finely developed an oxidation strategy for alginate to obtain hydrogels with more suitable degradation rates and comprehensively explored their physical and biological performances in vitro and in vivo to further advance the clinical application for the hydrogels in bone repair. The physical properties of the gels can be tuned via tailoring the degree of alginate oxidation. In particular, in vivo degradation studies showed that the degradation rates of the gels were significantly increased by oxidizing alginate. The activity, proliferation, initial adhesion, and osteogenic differentiation of rat and rabbit bone marrow stromal cells (BMSCs) cultured with/in the hydrogels were explored, and the results demonstrated that the gels possessed excellent biocompatibility and that the encapsulated BMSCs were capable of osteogenic differentiation. Furthermore, in vivo implantation of rabbit BMSC-loaded gels into tibial plateau defects of rabbits demonstrated the feasibility of hydrogels with appropriate degradation rates for bone repair. This study indicated that hydrogels with increasingly controllable and matchable degradation kinetics and satisfactory bioproperties demonstrate great clinical potential in bone tissue engineering and regenerative medicine and could also provide references for drug/growth-factor delivery therapeutic strategies for diseases requiring specific drug/growth-factor durations of action.
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