组织工程心脏瓣膜的构建:现状与前景
조직공정심장판막적구건:현상여전경
Construction of tissue-engineered heart valves:Status and Prospects
  • 万方数据
    中国组织工程研究 중국조직공정연구
    Journal of Clinical Rehabilitative Tissue Engineering Research
    2013年 50期 8775-8780 ,共6页

    孙艳丽%韩宏光%黄带发%贺顺川%李予杰

    손염려%한굉광%황대발%하순천%리여걸

    组织工程%组织工程学术探讨%心脏瓣膜%种子细胞%血管内皮细胞%内皮祖细胞%骨髓间充质干细胞%主动脉瓣膜%脱细胞%生物支架%生物反应器%细胞因子 組織工程%組織工程學術探討%心髒瓣膜%種子細胞%血管內皮細胞%內皮祖細胞%骨髓間充質榦細胞%主動脈瓣膜%脫細胞%生物支架%生物反應器%細胞因子
    조직공정%조직공정학술탐토%심장판막%충자세포%혈관내피세포%내피조세포%골수간충질간세포%주동맥판막%탈세포%생물지가%생물반응기%세포인자
    背景:目前临床上应用的心脏生物瓣和机械瓣都存在一些缺陷和不足,而组织工程心脏瓣膜有可能避免这些问题的出现,成为瓣膜替代物的理想选择。<br>  目的:探讨构建组织工程心脏瓣膜的实验研究进展。<br>  方法:应用数据库检索的方法分析关于组织工程心脏瓣膜的实验研究文献,组织工程心脏瓣膜的三大要素为种子细胞、支架材料和细胞种植。<br>  结果与结论:心脏瓣膜修复和置换是目前治疗心脏瓣膜性疾病的主要外科手段。目前,主要用于构建组织工程心脏瓣膜的种子细胞有血管内皮细胞、内皮祖细胞以及骨髓间充质干细胞等。经脱细胞处理的支架具有良好的生物力学性能和组织相容性,细胞种植后支架表面会形成一层连续的细胞层,其构建的组织工程心脏瓣膜是可行的。组织工程心脏瓣膜有着良好的应用前景,但目前还有很多问题需要解决,还处于研究的初级阶段。
    배경:목전림상상응용적심장생물판화궤계판도존재일사결함화불족,이조직공정심장판막유가능피면저사문제적출현,성위판막체대물적이상선택。<br>  목적:탐토구건조직공정심장판막적실험연구진전。<br>  방법:응용수거고검색적방법분석관우조직공정심장판막적실험연구문헌,조직공정심장판막적삼대요소위충자세포、지가재료화세포충식。<br>  결과여결론:심장판막수복화치환시목전치료심장판막성질병적주요외과수단。목전,주요용우구건조직공정심장판막적충자세포유혈관내피세포、내피조세포이급골수간충질간세포등。경탈세포처리적지가구유량호적생물역학성능화조직상용성,세포충식후지가표면회형성일층련속적세포층,기구건적조직공정심장판막시가행적。조직공정심장판막유착량호적응용전경,단목전환유흔다문제수요해결,환처우연구적초급계단。
    BACKGROUND:Current cardiac bioprostheses and mechanical valves are shown to have some flaws and shortcomings, and tissue-engineered heart valves which can avoid these problems are becoming an ideal choice for valve replacement. <br> OBJECTIVE:To explore the experimental progress in the construction of tissue-engineered heart valves. <br> METHODS:Experimental studies related to tissue-engineered heart valves were retrieved in databases. Three main elements for tissue-engineered heart valves are seed cells, scaffold materials, and cellseeding. <br> RESULTS AND CONCLUSION:Cardiac valve repair and replacement is the primarily surgical treatment for valvular heart disease. At present, seed cells mainly for construction of tissue-engineered heart valves include vascular endothelial cells, endothelial progenitor cells and bone marrow mesenchymal stem cells. The acellular scaffold has good biomechanical properties and histocompatibility. After cellseeding, a continuous celllayer wil form on the scaffold surface, which makes it possible to construct tissue-engineered heart valves. Tissue-engineered heart valve has a good prospect, but it is stil in the early stage of research and there are stil many problems that need to be solved.
    원문보기 원문다운로드 사이트로이동
저자의 최근 논문