综述:光聚合和可降解生物材料在组织工程中的应用。

Jamie L Ifkovits, Jason A Burdick
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引用次数: 566

摘要

光聚合和可降解生物材料在组织工程领域得到了广泛的应用,如骨、软骨和肝脏等组织的工程。光引发聚合所提供的空间和时间控制使得可以递送细胞和生长因子的可注射材料的发展,以及具有复杂结构的脚手架的制造成为可能。为这些应用开发的材料范围从完全合成的聚合物(例如聚乙二醇)到用光反应基团修饰的纯天然聚合物(例如透明质酸),其降解基于聚合物主链或交联中的键的水解或酶降解。根据骨架化学性质和可降解单元的类型,降解行为也从纯粹的体降解到完全的表面降解。这些聚合物的力学性能主要取决于网络交联密度和聚合物浓度等因素。随着我们更好地了解控制细胞行为所必需的生物特征,可以结合和模仿许多这些因素的智能材料正在开发中。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Review: photopolymerizable and degradable biomaterials for tissue engineering applications.

Photopolymerizable and degradable biomaterials are finding widespread application in the field of tissue engineering for the engineering of tissues such as bone, cartilage, and liver. The spatial and temporal control afforded by photoinitiated polymerizations has allowed for the development of injectable materials that can deliver cells and growth factors, as well as for the fabrication of scaffolding with complex structures. The materials developed for these applications range from entirely synthetic polymers (e.g., poly(ethylene glycol)) to purely natural polymers (e.g., hyaluronic acid) that are modified with photoreactive groups, with degradation based on the hydrolytic or enzymatic degradation of bonds in the polymer backbone or crosslinks. The degradation behavior also ranges from purely bulk to entirely surface degrading, based on the nature of the backbone chemistry and type of degradable units. The mechanical properties of these polymers are primarily based on factors such as the network crosslinking density and polymer concentration. As we better understand biological features necessary to control cellular behavior, smarter materials are being developed that can incorporate and mimic many of these factors.

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来源期刊
Tissue engineering
Tissue engineering CELL & TISSUE ENGINEERING-BIOTECHNOLOGY & APPLIED MICROBIOLOGY
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