多孔镁作为骨组织工程材料具有明显的优势。
Porous magnesium has obvious advantages as bone tissue engineering biomaterial.
支架材料是骨组织工程的核心内容和关键环节。
The scaffolds are the core content and key of the bone tissue engineering.
支架的研究一直是骨组织工程研究的主要问题之一。
Fabrication of scaffolds is one of the primary problems in bone tissue engineering.
此类材料有望成为一种生物活性的骨组织工程材料。
This material was expected to be a bioactive bone tissue engineering material.
近年来,对骨组织工程支架的研究受到了广泛关注。
Recently, the study of bone tissue engineering scaffolds has been attracted much attention.
结论猪松质骨支架具有骨组织工程支架材料结构特征。
Conclusion the porcine cancellous bone scaffold has the structural characteristics of tissue-engineering bone scaffold.
目的:探索胶原海绵作为骨组织工程支架材料的可行性。
Objective: To investigate the feasibility of collagen sponge as scaffold material in bone tissue engineering.
寻找理想的支架材料是目前骨组织工程研究的热点之一。
To explore an ideal scaffold material is one of the hot topics on current bone tissue engineering.
骨组织工程的目的就是修复骨组织的正常生物力学功能。
The main goal of bone tissue engineering is the restoration of normal biomechanical functions of bone.
此材料可望成为优异的骨修复材料及骨组织工程支架材料。
The material is expected to be a good candidate for bone-repairing and bone tissue engineering scaffold materials.
通过人们的努力,目前已有多种骨组织工程支架材料问世。
A number of scaffolds have been fabricated by effort of scientists.
骨组织工程的研究为骨缺损修复提供了全新的思路和方法。
Bone tissue engineering has been heralded as the alternative strategy to regenerate bone.
材料结构和性能符合非承力部位骨组织工程支架材料的要求。
These demonstrate that the composites obtained in this work can meet the requirements of bone tissue engineering scaffolds.
在骨组织工程研究和临床应用中需要大量的BMP - 2。
A large amount of BMP-2 is needed for both bone tissue engineering research and clinical application.
基因工程化骨形态发生蛋白的应用在骨组织工程中具有广阔的前景。
The application of genetic bone morphogenesis protein has the broad prospects in bone tissue engineering.
骨组织工程研究领域中,支架材料与细胞的相互作用是主要的研究课题。
The study of scaffold material-cell interactions was the major subject in the field of bone tissue engineering.
近年来,羊毛角蛋白作为骨组织工程支架材料的研究引起了学者们的关注。
In recent years, keratin has drawn great interest of researchers as scaffold material for bone tissue engineering.
在此笔者对骨组织工程的进展作一综述,并探讨其存在的问题和发展前景。
Here we reviewed the progress about the bone tissue engineering, explored the existing problem and prospected its future.
结论纳米组织工程骨有良好的生物相容性,可作为骨组织工程理想的载体材料。
Conclusions NHAC has good biocompatibility and can be used as ideal biomaterial in bone tissue engineering.
计算机辅助设计软件设计支架内部结构成功地建立了骨组织工程支架的实体模型。
The internal structure of the scaffold was designed to establish the entity model of bone tissue engineering scaffold successfully with computer-aided design software.
目的分离培养山羊的间充质干细胞,并为其在骨组织工程研究中的应用奠定基础。
Objective To isolate and culture goat mesenchymal stem cells (MSCs) from bone marrow, and explore their application in bone tissue engineering.
结论:纳米组织工程骨有良好的生物相容性,可以作为骨组织工程理想的载体材料。
Conclusions: NHAC has good biocompatibility and can be used as ideal biomaterial in bone tissue engineering.
目的制备并检测CPC - PLGA复合物,为骨组织工程研究提供新的支架材料。
Objective Preparing and testing CPC-PLGA polymer tissue engineered bone, providing a new-type scaffold material for bone tissue Engineering.
制备骨组织工程实验用恒河猴胫骨骨缺损模型,为下一步研究提供一种标准的实验动物模型;
To prepare an experimental rhesus monkey model of tibia diaphyseal defect used in tissue engineering. Providing a standard animal model of experiment gave the next study.
目的研究仿生矿化的聚乳酸-羟基乙酸共聚物(PLGA)作为骨组织工程支架材料的可行性。
Objective To investigate the feasibility of using biomimetic mineralized PLGA as scaffold material in bone tissue engineering.
在适量的固相含量和生物玻璃的含量下,可制得孔结构满足骨组织工程支架材料要求的多孔陶瓷。
Porous ceramic with a pore structure meeting the requirements for the scaffold of bone tissue engineering could be prepared at suitable solid content and solid ratio.
本文阐述了理想骨组织工程基质材料的要求,介绍了几种可降解材料在骨组织工程中的应用现状。
This article introduced the requirements of ideal extracellular matrix materials and the application of several biodegradable materials in bone tissue engineering.
骨髓间充质干细胞因其具有自我复制和多向分化潜能而成为目前骨组织工程领域研究的重点之一。
The field of tissue engineering is paying more attention to bone marrow mesenchymal stem cells that have active self-proliferative and multidifferentiated capactiy.
目的观察兔骨髓诱导的内皮细胞用纤维蛋白胶接种到骨组织工程支架上,在体外人工骨血管化效果。
Objective To observe angiogenesis of induced endothelial cells in demineralized bone matrix scaffold seed by fibrin sealant in vitro.
目的观察兔骨髓诱导的内皮细胞用纤维蛋白胶接种到骨组织工程支架上,在体外人工骨血管化效果。
Objective To observe angiogenesis of induced endothelial cells in demineralized bone matrix scaffold seed by fibrin sealant in vitro.
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