To investigate the effect of compressive strain on tissue engineered cartilage construction in vitro.
在压应变作用下构建组织工程化软骨。
Transfer of tissue engineered cartilage might be the best choice for repair of injury of growth plate.
组织工程软骨移植可能是生长板损伤修复的最佳选择。
Objective To construct tissue engineered cartilage using cartilage microparticle acellular tissue matrix(CMACTM)as scaffold.
目的探索以异体软骨微粒脱细胞基质为支架构建组织工程化软骨。
Objectives to design a set of perfusion bioreactor which controlled by computer for constructing tissue engineered cartilage.
目的:设计一套计算机控制的组织工程软骨实验用灌流型生物反应器。
The capacity of cartilage tissue for regeneration is limited. Engineered cartilage is very useful for repairing cartilage defects.
软骨组织的再生能力有限,组织工程软骨的构建对修复软骨缺损意义重大。
Conclusion Combination collagen gel with BCM can be used as a vehicle for chondrocytes to construct tissue-engineered 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。
Objective To construct tissue engineered cartilage by combining allogenic cartilage microparticle acellular tissue matrix and chondrocytes.
目的将软骨细胞与异体软骨微粒脱细胞基质相结合,构建组织工程软骨。
Conclusion PGA fleece scaffold could be used as a proper biodegradable material for the formation of allogenic tissue engineered cartilage.
结论一定设计的PGA无纺网在组织工程化软骨形成过程中适合其生物降解性要求。
Objective to reconstruct tissue engineered cartilage using temperature responsive chitosan hydrogel, which were prepared as scaffold materials.
目的验证自行制备的温敏性壳聚糖水凝胶作为软骨细胞支架材料构建组织工程化软骨的可行性。
The results of this study demonstrated that the simulated microgravity by RCCS can improve the quality of tissue-engineered cartilage formed in vitro.
旋转培养仪提供的模拟微重力环境,可以提高工程化软骨的质量。
Objective Study the mechanism of the healing of bone defect after transplantation of the tissue-engineered cartilage into the bone defects and with guided bone regeneration tubes.
目的通过引导性骨再生和组织工程软骨移植研究长骨骨缺损的修复机制。
In this article, we will expound the fabrication of tissue engineered cartilage and its application in the cartilage injury and repairing by referring to the results of our research.
本文结合我们近年的研究成果,着重论述组织工程化软骨的构建及其在软骨损伤和修复研究中的应用。
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。
Conclusion Considering source of transplanted material, reparative effect and adverse reaction, repair of injury of growth plate with tissue engineered cartilage deserves further investigation.
结论考虑到移植物来源、修复效果及不良反应等因素,组织工程软骨修复生长板损伤值得进一步研究。
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).
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。
Objective To explore the method of fabricating tissue engineered laryngeal cartilage.
目的研究组织工程化喉支架软骨的构建方法。
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。
The studies on the tissue engineered-bone, cartilage, skin, and vessels will exert a tremendous impact on the repair of orthopaedic trauma.
组织工程化骨与软骨、皮肤、血管等研究也将对骨科创伤修复产生积极影响。
The studies on the tissue engineered-bone, cartilage, skin, and vessels will exert a tremendous impact on the repair of orthopaedic trauma.
组织工程化骨与软骨、皮肤、血管等研究也将对骨科创伤修复产生积极影响。
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