机构地区:[1]上海工程技术大学化学化工学院,上海市201620
出 处:《中国组织工程研究》2024年第15期2416-2422,共7页Chinese Journal of Tissue Engineering Research
摘 要:背景:基于解剖学对生物组织功能与结构的认识,对于具有恢复、维持或改善组织功能的生物活性材料仿生设计是目前再生医学领域研究的热点。目的:从生物医用支架的机械性能、三维空间结构和生化活性对细胞行为的影响进行讨论,并综述生物医用支架在组织工程领域的应用。方法:应用计算机检索中国知网、万方、Web of Science、PubMed数据库2003年1月至2023年4月发表的文献,中文检索词为“细胞外基质,组织工程,支架,生物材料,仿生结构,机械性能,三维结构,腱骨界面,骨软骨,神经导管,人造血管”;英文检索词为“extracellular matrix,tissue engineering,scaffolds,biomimetic structures,biomaterials,tendon bone interfaces,osteochondral,neural conduits,artificial blood vessels”。结果与结论:细胞处在一个复杂且动态变化的三维环境中,因此细胞外基质是生物材料模拟的最终目标,在设计生物医用支架的仿生结构时需要与其所处真实的微环境相似,让细胞可以正常地贴壁、生长和迁移,并保持其多样的生理功能。生物医用支架在机械性能、三维空间结构以及生物化学性质方面对细胞外基质的仿生设计可以对组织修复过程中的细胞起到决定性作用,从而影响组织修复最后的结果。进行仿生设计的生物医用支架在腱骨界面、骨软骨界面、神经、血管再生等领域已有广泛的应用,在临床上提供了一个有前途的新思路。BACKGROUND:Biomimetic design of bioactive materials to restore,maintain or improve the function of tissue based on the understanding of anatomy on the function and structure of biological tissue is a research hotspot in the field of regenerative medicine at present.OBJECTIVE:To discuss the effect of mechanical properties,three-dimensional spatial structure,and biochemical activity of biomedical scaffolds on cell behavior and review the application of biomedical scaffolds in the field of tissue engineering.METHODS:The articles published in CNKI,Wanfang,Web of Science,and PubMed databases from January 2003 to April 2023 were searched by computer.The Chinese search terms were“extracellular matrix,tissue engineering,scaffolds,biomaterials,biomimetic structures,mechanical properties,three-dimensional structures,tendon-bone interface,osteochondral,neural conduits,artificial blood vessels”.English search terms were“extracellular matrix,tissue engineering,scaffolds,biomimetic structures,biomaterials,tendon bone interfaces,osteochondral,neural conduits,artificial blood vessels”.RESULTS AND CONCLUSION:Cells are in a complex and dynamic three-dimensional environment,so the extracellular matrix is the ultimate target of biomaterial simulation.The bionic structure of biomedical scaffolders needs to be similar to the real microenvironment,so that cells can stick to the wall,grow and migrate normally,and maintain their diverse physiological functions.Biomimetic design of extracellular matrix in terms of mechanical properties,three-dimensional spatial structure,and biochemical properties of biomedical scaffolds can play a decisive role in tissue repair,thus affecting the final result of tissue repair.Biomimetic biomedical scaffolds have been widely used in tendon-bone interface,bone cartilage interface,nerve,vascular regeneration,and other fields,providing a promising new idea in clinical practice.
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