目的探讨循环应力对体外构建组织工程软骨的影响。
Objective To study the effect of the cyclic pressure on the constructing of tissue engineering cartilage in vitro.
结论胶原凝胶复合bcm支架可作为软骨细胞的载体体外构建组织工程软骨。
Conclusion Combination collagen gel with BCM can be used as a vehicle for chondrocytes to construct tissue-engineered cartilage in vitro.
目的探索应用离心管培养技术进行体外构建组织工程化关节软骨组织的可行性,并研究其结构和功能。
Objective To explore the feasibility of tissue engineered articular cartilage constructed by the technique of centrifuge tube culture and study its structure and function.
目的利用组织工程学技术体外构建骺板样软骨组织。
Objective To reconstruct the growth plate like tissue in vitro from iliac chondrocytes of rabbits.
目的:利用软骨微粒脱细胞基质这种新型支架材料及纤维蛋白胶,体外构建可塑形及具有良好生物相容性的组织工程化软骨。
AIM: To establish engineered cartilage with good biocompatibility and plasticity in vitro with fibrin glue and a new material of stent made by cartilage microparticle acellular tissue matrix (CMACTM).
结论异种脱细胞软骨基质和骺板软骨细胞在体外成功构建出组织工程骺板,为下一步研究奠定基础。
Conclusion Tissue engineering epiphyseal plate can be constructed with CACEM and growth plate cells in vitro, thus laying a foundation for further study.
如何体外大量扩增得到数量足够的自体软骨细胞以进行关节软骨缺损的组织工程方法修复是目前实验研究的重点。
The plerosis of articular cartilage injury is an important task in the aspects of clinincal and basic research on orthopaedics.
伴随寻求最优化的体外培养环境,旋转培养仪将成为生产组织工程化软骨极具潜力的选择,该技术也为实现关节软骨损伤的修复提供有效途径。
With the optimization of the culture conditions, RCCS may be employed for the production of tissue-engineered cartilage and become a promising means for human cartilage reconstruction.
伴随寻求最优化的体外培养环境,旋转培养仪将成为生产组织工程化软骨极具潜力的选择,该技术也为实现关节软骨损伤的修复提供有效途径。
With the optimization of the culture conditions, RCCS may be employed for the production of tissue-engineered cartilage and become a promising means for human cartilage reconstruction.
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