中国组织工程研究
中國組織工程研究
중국조직공정연구
Journal of Clinical Rehabilitative Tissue Engineering Research
2013年
2期
342-346
,共5页
组织构建%组织构建学术探讨%骨形态发生蛋白2%信号通路%骨%损伤修复%软骨内成骨%微环境%骨再生%骨形成%成骨细胞%Sox9%省级基金
組織構建%組織構建學術探討%骨形態髮生蛋白2%信號通路%骨%損傷脩複%軟骨內成骨%微環境%骨再生%骨形成%成骨細胞%Sox9%省級基金
조직구건%조직구건학술탐토%골형태발생단백2%신호통로%골%손상수복%연골내성골%미배경%골재생%골형성%성골세포%Sox9%성급기금
tissue construction%academic discussion in tissue construction%bone morphogenetic protein 2%signaling pathway%bone%damage repair%endochondral bone%microenvironment%bone regeneration%bone formation%osteoblasts%Sox9%provincial grants-supported paper
背景:骨形态发生蛋白在骨形成过程中、骨折愈合后以及骨质破坏后骨诱导方面起着重要作用,它可以作为启动调节因子和别的信号通路共同促进新骨形成.内源性骨形态发生蛋白2的调节可以作为未来骨修复领域的一个新的靶点.目的:通过分析和总结1988年以来骨形态发生蛋白信号传导通路在软骨内成骨、维持成人骨骼生长发育中的作用机制,探索骨形态发生蛋白信号通路在骨的发育以及损伤修复中的作用.方法:分别以“骨形态发生蛋白、软骨内成骨、骨修复”,“bone reduction”为检索词,应用计算机检索重庆维普(VIP)期刊全文数据库及PubMed 数据库1998年1月至2009年12月有关文章.纳入有关骨形态发生蛋白信号通路及其作用的文献.排除与研究目的无关和内容重复者.保留34篇文献做进一步分析.结果与结论:骨形态发生蛋白信号通路诱导骨再生潜能在脊柱外科手术、骨折后愈合以及骨破坏后骨诱导等诸多领域成为研究热点.在骨形成过程中,骨形态发生蛋白也作为启动调节因子和别的信号通路相互影响共同促进新骨形成,出生后,骨形态发生蛋白也参与骨骼动态平衡的维持.在骨的微环境中,骨形态发生蛋白和其他影响骨质动态平衡的信号通路共同为诱导骨形成的合成代谢疗法提供了一个新靶点,这为骨修复时骨形态发生蛋白控制新骨的形成提供了一个新的思路.
揹景:骨形態髮生蛋白在骨形成過程中、骨摺愈閤後以及骨質破壞後骨誘導方麵起著重要作用,它可以作為啟動調節因子和彆的信號通路共同促進新骨形成.內源性骨形態髮生蛋白2的調節可以作為未來骨脩複領域的一箇新的靶點.目的:通過分析和總結1988年以來骨形態髮生蛋白信號傳導通路在軟骨內成骨、維持成人骨骼生長髮育中的作用機製,探索骨形態髮生蛋白信號通路在骨的髮育以及損傷脩複中的作用.方法:分彆以“骨形態髮生蛋白、軟骨內成骨、骨脩複”,“bone reduction”為檢索詞,應用計算機檢索重慶維普(VIP)期刊全文數據庫及PubMed 數據庫1998年1月至2009年12月有關文章.納入有關骨形態髮生蛋白信號通路及其作用的文獻.排除與研究目的無關和內容重複者.保留34篇文獻做進一步分析.結果與結論:骨形態髮生蛋白信號通路誘導骨再生潛能在脊柱外科手術、骨摺後愈閤以及骨破壞後骨誘導等諸多領域成為研究熱點.在骨形成過程中,骨形態髮生蛋白也作為啟動調節因子和彆的信號通路相互影響共同促進新骨形成,齣生後,骨形態髮生蛋白也參與骨骼動態平衡的維持.在骨的微環境中,骨形態髮生蛋白和其他影響骨質動態平衡的信號通路共同為誘導骨形成的閤成代謝療法提供瞭一箇新靶點,這為骨脩複時骨形態髮生蛋白控製新骨的形成提供瞭一箇新的思路.
배경:골형태발생단백재골형성과정중、골절유합후이급골질파배후골유도방면기착중요작용,타가이작위계동조절인자화별적신호통로공동촉진신골형성.내원성골형태발생단백2적조절가이작위미래골수복영역적일개신적파점.목적:통과분석화총결1988년이래골형태발생단백신호전도통로재연골내성골、유지성인골격생장발육중적작용궤제,탐색골형태발생단백신호통로재골적발육이급손상수복중적작용.방법:분별이“골형태발생단백、연골내성골、골수복”,“bone reduction”위검색사,응용계산궤검색중경유보(VIP)기간전문수거고급PubMed 수거고1998년1월지2009년12월유관문장.납입유관골형태발생단백신호통로급기작용적문헌.배제여연구목적무관화내용중복자.보류34편문헌주진일보분석.결과여결론:골형태발생단백신호통로유도골재생잠능재척주외과수술、골절후유합이급골파배후골유도등제다영역성위연구열점.재골형성과정중,골형태발생단백야작위계동조절인자화별적신호통로상호영향공동촉진신골형성,출생후,골형태발생단백야삼여골격동태평형적유지.재골적미배경중,골형태발생단백화기타영향골질동태평형적신호통로공동위유도골형성적합성대사요법제공료일개신파점,저위골수복시골형태발생단백공제신골적형성제공료일개신적사로.
BACKGROUND:Bone morphogenetic proteins play an important role in bone formation, fracture healing and bone induction after bone destruction, and it can be used as a start regulating factor to promote the new bone formation with other signal paths. The regulation of endogenous bone morphogenetic protein 2 can be used as a new target in the future field of bone repair. OBJECTIVE:Through analyzing and summarizing the mechanism of the bone morphogenetic protein signal transduction pathway in endochondral ossification reported from 1988 to now, adult bone growth and development, to explore the role of the bone morphogenetic protein signal pathways in the bone growth and damage repair. METHODS:A computer-based search was performed to search relevant articles about bone morphogenetic protein signaling pathways and its function from VIP and PubMed databases (1998-01/2009-12), respectively by using the key words of“bone morphogenetic protein, endochondral ossification, bone repair”in Chinese and“bone reduction”in English. Literatures irrelevant to research purpose or containing a similar content were eliminated. Final y, 34 articles were chosen for further analysis. RESULTS AND CONCLUSION:Because of its osteoinductive, bone morphogenetic protein signal pathway has become a hot spot in spinal surgery, fracture healing and bone induction after bone destruction. During the bone formation, the bone morphogenetic protein also serves as a start regulating factor to promote the new bone formation with other signal paths. In the bone micro environment, the bone morphogenetic protein and other signal paths that influence bone dynamic balance offer a new target for anabolic therapy that induces the bone formation, which provides a new thought on bone morphogenetic protein control to the formation of new bone fol owing bone repair.
