四川大学华西医院生物治疗国家重点实验室·干细胞与组织工程研究室;
Sichuan University; 610041; P. R. China; 2Division of Stem Cell and Tissue Engineering; State Key Laboratory of Biotherapy; West China Hospital; Sichuan University. ;
应用许旺细胞与组织工程材料联合培养,构建人工神经修复周围神经损伤,具有广阔的应用前景。
Using Schwann cells for association culture with tissue engineering materials and fabricating artificial nerve to repair injured peripheral nerves have extensive applied prospect.
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.
细胞移植与干细胞工程、基因工程及组织工程结合具有一定的发展前景。
The cell transplantation combination with stem cell engineering, gene engineering and tissue engineering has good prospect.
资料提炼:共收集到190篇与骨髓间充质干细胞和骨及软骨组织工程有关的文献,其中30篇符合纳入标准。
DATA EXTRACTION: Totally 190 articles about MSCs and bone and cartilage tissue engineering, of which 30 articles were accorded with the inclusion criteria.
传统的组织工程的模式是使孤立的细胞在生物材料支架中与适当的生物活性因子相结合。
The traditional tissue-engineering paradigm combines isolated cells with appropriate bioactive agents in a biomaterial scaffold.
指出有利于细胞生长与粘附的生物材料的研制必将推动组织工程化肌腱的研究。
It is considered that biomaterials favorable for cell growth and attachment will develop the research in tissue engineered tendon.
在中药治疗骨质疏松症的药物筛选,骨髓基质细胞培养与组织工程人工骨研究。
In Chinese medicine the treatment of osteoporosis drug screening, bone marrow stromal cell culture and tissue engineering artificial bone research.
本研究的目的就是利用细胞亲和力较好的胶原与壳聚糖复合,制备具有较好细胞亲和力的组织工程复合支架。
To improve the cellular affinity of chitosan, chitosan-collagen porous composite scaffolds for tissue engineering were prepared in this study.
方法将第54代转化人胚肌腱细胞与碳纤维和聚羟基乙酸混合编织带体外复合培养构建组织工程肌腱。
Methods The 54th generation of transformed human embryonic tendon cells and artificial composite materials of carbon fibers(CF) and polyglycolic(PGA) were co-cultured in vitro to construct TET.
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。
Objective To construct tissue engineered cartilage by combining allogenic cartilage microparticle acellular tissue matrix and chondrocytes.
目的:探讨牙周膜成纤维细胞与可吸收引导组织再生膜生物相容性,为牙周组织工程中支架材料选择提供依据。
Objective: To evaluate the biocompatibility on guided tissue regeneration membranes combined with cultured human periodontal ligament fibroblasts (PDLFs) in periodontal tissue engineering.
组织工程支架材料表面的微观和亚微观结构对细胞的黏附与生长有很重要的影响,纳米结构材料的应用为该结构展现了较广阔的前景。
Micro and nano structured surfaces of scaffold materials have important effects on cells adhesion and proliferation, and there is great application of nano structure materials in this field.
介绍了组织工程的最新研究现状,主要就组织工程对材料的性能要求,如生物降解性、与细胞及组织的适应性进行了综述。
Progress in tissue engineering was reviewed, especially in the properties of materials used in tissue engineering, such as biodegradability, and compatibility with cells or tissues.
兔骨髓基质细胞与复合材料具有良好的生物相容性,可作为骨髓基质细胞的载体应用于组织工程。
The BMSCs have biocompatibility with CTCP, and CTCP could be used as vector for BMSCs in tissue engineering.
王琳,姜威。构建组织工程气管上皮细胞和成纤维细胞联合培养的模式:与常规培养的比较。
Wang L., Jiang W. scopus Co-culture mode of tissue-engineered tracheal epithelial cells and fibroblasts: Comparison with routine culture. 2008.
王琳,姜威。构建组织工程气管上皮细胞和成纤维细胞联合培养的模式:与常规培养的比较。
Wang L., Jiang W. scopus Co-culture mode of tissue-engineered tracheal epithelial cells and fibroblasts: Comparison with routine culture. 2008.
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