从材料科学与生命科学相融合的观点出发,介绍了组织工程及相关生物材料。
Tissue engineering and related biomaterials were introduced with points of view from the disciplinary fusion of material science and life science.
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.
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.
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.
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.
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.
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