细胞外基质性生长因子递送系统如何促进骨再生  

作　　者：石军 杨林 郭质彬 崔宇韬 刘贺[2] Shi Jun;Yang Lin;Guo Zhibin;Cui Yutao;Liu He(Second Department of Orthopedics,Xiehe Dongxihu Hospital/Dongxihu District People's Hospital,Wuhan 430040,Hubei Provinee,China;Department of Orthopedics,Second Hospital of Jilin University,Changchun 130041,Jilin Province,China)

机构地区：[1]协和东西湖医院/东西湖区人民医院骨二科,湖北省武汉市430040 [2]吉林大学第二医院骨科,吉林省长春市130041

出　　处：《中国组织工程研究》2020年第28期4445-4451,共7页Chinese Journal of Tissue Engineering Research

基　　金：吉林省财政厅项目(2019SCZT014),项目参与者:崔宇韬、刘贺.

摘　　要：背景:生长因子的局部应用为难愈性骨缺损治疗提供了很有前景的治疗策略,但其仍存在诸多限制因素,如无法精确控制生长因子的释放量及生长因子释放后生物活性较低等,因此生长因子递送系统的改良是亟待解决的问题。目的:总结多种包含细胞外基质成分的生长因子递送系统及其在骨缺损治疗方面的最新研究进展。方法:由第一作者以"extracellular matrix,integrins,heparin,growth factor,controlled delivery system,bone defect,细胞外基质,整合蛋白,肝素,生长因子,缓释系统,骨缺损"为关键词,检索2007至2019年期间PubMed、Web of Science、Medline、万方、CNKI数据库中的相关文献。初检文章317篇,筛选后对59篇文章进行分析。结果与结论:细胞外基质成分可结合并调控生长因子的活性,提高其生物利用度。因此将细胞外基质成分整合入生长因子递送系统中可达到对生长因子递送系统的改良。与普通生长因子递送系统相比,细胞外基质性生长因子递送系统可以获得更好的生长因子结合效果,更高的生物活性与利用度,甚至更好的靶向性释放,产生更好的促进骨再生的治疗效果。因此细胞外基质性生长因子递送系统为难愈性骨缺损局部治疗提供了更优良的治疗策略。BACKGROUND: The local application of growth factor provides a promising therapeutic strategy for the treatment of refractory bone defects. However, there are still many factors that limit the application of the local growth factor delivery system, for example, inability to accurately control the amount of growth factors released and the low biological activity of the released growth factors.OBJECTIVE: To summarize a variety of growth factor delivery systems containing extracellular matrix components and the latest research progress regarding their application in the treatment of bone defects. METHODS: The first authors searched PubMed, Web of Science, Medline, Wanfang and CNKI databases to retrieve articles published during 2007-2019 with the search terms "extracellular matrix, integrins, heparin, heparin, growth factor, controlled delivery system, bone defect" in English and Chinese, respectively. A total of 317 articles were initially retrieved, and 59 of them were included in the final analysis. RESULTS AND CONCLUSION: Extracellular matrix components can combine and regulate the activity of growth factors and improve their bioavailability. Therefore, improvement of growth factor delivery system can be achieved by integrating extracellular matrix components into the growth factor delivery system. Compared with the common growth factor delivery system, the extracellular matrix growth factor delivery system can obtain better growth factor binding effect, higher biological activity and utilization, and even better targeted release, thus producing better effects on promoting bone regeneration. Therefore, the extracellular matrix growth factor delivery system provides a better therapeutic strategy for local treatment of refractory bone defects.

关 键 词：细胞外基质 整合蛋白 肝素化 生长因子 局部递送系统 骨缺损 支架 骨组织工程 

分 类 号：R459.9[医药卫生—治疗学] R313[医药卫生—临床医学]