文章摘要
张鹏飞 史欣 袁梦桐 刘明月 胡伟平.牙髓干细胞成骨诱导的新进展[J].,2015,15(31):6198-6200
牙髓干细胞成骨诱导的新进展
Novel Progress in the Osteogenic Differentiation of Dental Pulp StemCells
  
DOI:
中文关键词: 牙髓干细胞  细胞因子  成骨诱导
英文关键词: Dental pulp stemcells  Cytokines  Osteogenic differentiation
基金项目:黑龙江省自然科学基金项目(H2013101)
作者单位
张鹏飞 史欣 袁梦桐 刘明月 胡伟平 哈尔滨医科大学附属第二医院口腔修复科 
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中文摘要:
      近年来,骨组织工程已成为口腔种植和正颌外科手术新的治疗靶点。骨组织工程包括种选取种子细胞,制备细胞生物支架, 构建细胞支架复合物体三大步骤,选取优良的种子细胞是其中最为重要的一环。牙髓干细胞凭借其自身多向分化潜能、来源广 泛、安全排斥小等特点成为优秀的骨组织工程种子细胞。然而,牙髓干细胞还存在分化方向不固定、分化效率偏低的问题。因此, 找到一个合适的微环境诱导牙髓干细胞产生更多的成骨细胞至关重要。牙髓干细胞成骨诱导应用最普遍的成骨诱导方式是矿化 液诱导。目前成骨分化相关的细胞因子成为了国内外学者的研究热点,包括骨涎蛋白(BSP)、骨形态发生蛋白2(BMP2)、骨桥蛋白 (OPN)、Runx2、纤维联结蛋白(FN)、腱生蛋白(TN)等。本文就这些细胞因子之间关系,及其吸附于生物材料表面诱导牙髓干细胞定 向成骨向分化的能力作一综述。
英文摘要:
      Resent years, bone-tissue engineering is one of the therapeutic targets in the field of dental implant and orthognathic operation. Bone tissue engineering includes three parts: the selection of seed cells, preparation of cell biological scaffold, building of cell scaffold composite. The most important part is the selection of good seed cells. Dental pulp stem cells which have good characteristics such as multidirectional differentiation potential, extensive sources, safety, and minor immune rejection, are proven to be good seed cells for the bone-tissue engineering. However, there are some problems: the differentiation direction is not site-specific, and the efficiency of the differentiation is still low. Therefore, it is essential to find a microenvironment that enhances the growth and differentiation of osteoblasts from dental pulp stem cells. Previously, the most common method is using osteogenic media to induce osteogenic differentiation. At present, some cytokines have become the research hotspot home and abroad, including bone sialoprotein (BSP), bone morphogenetic protein (BMP2), osteopontin (OPN), Runx2, fibronectin (FN), and tenascin (TN). The aim of this review is to determine the relationship among the above cytokines, and their ability to coat different types of biomaterials and surfaces to enhance osteoblast differentiation.
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