Objective to explore one simple way of preparation of chitosan extracellular matrix wire frame, and investigate its application as scaffold for tissue engineering.
目的:探索一种简单的制备壳多糖细胞外基质网架的方法,考察该基质网架作为组织工程支架材料应用的可行性。
Objective: to investigate a method to remove cellular components from bovine pericardial tissue, resulting a scaffold for tissue engineering of heart valve or cardiovascular patch.
目的:对牛心包材料进行了去污剂—酶联合脱细胞研究,为组织工程学方法研制生物瓣提供适合的生物材料。
In recent years, keratin has drawn great interest of researchers as scaffold material for 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。
The material is expected to be a good candidate for bone-repairing and bone tissue engineering scaffold materials.
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。
Cell, biomaterial prepared cells scaffold and formation of tissues and organs are three main factors for the tissue engineering.
细胞、生物材料制备的细胞支架,以及组织和器官的构建是组织工程的三大要素。
Objective (1) Take tissue engineering way of hypotonic-chemical detergent to prepare xenogeneic acellular nerve scaffold, which makes an optimal material for the graft of xenogeneic acellular nerve.
目的(1)采用化学萃取的组织工程学方法制备去细胞异种神经支架,拟为异种神经移植提供理想的支架材料。
Objective To provide the scaffold material of decellularized homograft bioprosthetic valve (HBV)for establishing of tissue engineering cardiac valve in vitro, and related technique.
目的为体外构建组织工程瓣提供脱细胞的同种生物瓣支架材料,并建立相应的技术方法。
To investigate the immunogenicity of the acellular spinal cord scaffold and to provide theoretical basis for its further application in tissue engineering.
评价脱细胞脊髓支架的免疫原性,为其在组织工程中的应用奠定理论基础。
The papers provided an experimental basis for the composite tubular scaffold used as tissue engineering blood vessel.
论文为该复合管状支架用于组织工程提供了实验依据。
Objective To evaluate the role of polylactic acid(PLA) in the formation of artificial dermis as the scaffold material and its significance in tissue engineering for artificial skin.
目的利用多孔聚乳酸海绵材料作为真皮支架材料,研究其在组织工程真皮构建中的作用及意义。
Porous scaffold plays an important role in tissue engineering and polymers are the main materials for manufacturing scaffolds.
多孔支架是组织工程的重要要素,高分子材料是制作支架的主要材料。
Objective: To prepare the acellular scaffold of parotid gland stroma with the lower antigenity and native structure for tissue engineering.
目的:探讨脱细胞腮腺支架材料的制备方法,制备涎腺组织工程的理想支架材料。
Objective Preparing and testing CPC-PLGA polymer tissue engineered bone, providing a new-type scaffold material for 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。
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.
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。
The preparation, modification, and cytocompatibility of poly-L-lactic acid (PLLA) scaffold for cartilage tissue engineering were studied.
研究了聚- L -乳酸(PLLA)软骨组织工程支架的制备、改性及细胞相容性。
This novel biomaterial shows good stability, and is a scaffold for attachment, growth and differentiation of cells. It is a prospective biomaterial for tissue repair and tissue engineering.
这种膜具有很好的稳定性,能使细胞在其上附着、生长和分化,从而为组织修复、组织工程提供了一个极有前景的生物材料。
The preparation, degradation, and cytocompatibility of poly-L-lactic acid (PLLA) scaffold for cartilage tissue engineering were studied in this thesis.
本文以聚- L -乳酸(PLLA)为原料,研究了多孔支架的制备、体外降解和软骨细胞的相容性。
The electrospun scaffold was reported to have a resemblance to the structure of the extracellular matrix and could be used as a promising scaffold for the tissue engineering application.
电纺支架能够仿生细胞外基质的结构特点,有望成为理想的组织工程支架;
Conclusion the epithelial cells from limbus contained stem cells that can be cultured on the surface of chitosan scaffold, and chitosan scaffold is a suitable corneal vector for tissue engineering.
结论壳聚糖上可成功地对兔角膜缘组织进行原代培养,可用作组织工程角膜的载体材料。
Conclusion: Human oral mucosa can be developed successfully with tissue-engineering methods, and PLGA can be used as scaffold for tissue-engineered oral mucosa.
结论:成功培养全层人口腔黏膜,PLGA可作为口腔黏膜组织工程支架材料。
Conclusion: Human oral mucosa can be developed successfully with tissue-engineering methods, and PLGA can be used as scaffold for tissue-engineered oral mucosa.
结论:成功培养全层人口腔黏膜,PLGA可作为口腔黏膜组织工程支架材料。
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