方法分离1月龄兔软骨细胞,经离心管内培养形成软骨。
Method Chondrocytes isolated from rabbits aged 1month formed cartilages after cultivation in centrifuge tubes.
方法:自3周龄兔关节面分离软骨细胞,经离心管培养2周形成软骨。
Methods:Chondrocytes were isolated from joint surfaces of rabbits aged 3 weeks and formed cartilages by cultivation in centrifuge tubes for 2 weeks.
可是有很小一部分能形成软骨细胞形成软骨。
A few, though, can produce chondrocytes, the cells that make cartilage.
研究者现在用各种细胞来检验设计框架,包括牙齿、骨骼、心脏、肝脏、软骨、皮肤、胰腺、血细胞和动脉形成细胞。
The researchers are now testing the designer scaffold with a variety of cells, including tooth, bone, heart, liver, cartilage, skin, pancreas, blood cells and artery-forming cells.
方法分离收集1月龄兔关节软骨细胞,经离心管内培养形成软骨。
Methods Chondrocytes isolated from articular cartilage of 1 month rabbits formed cartilage after cultivation in centrifuge tubes.
方法:自3周龄兔关节软骨分离软骨细胞,经离心管培养2周形成软骨。
Methods: Chondrocytes were isolated from articular cartilages of 3 week old rabbits and formed cartilages by cultivation in centrifuge tubes for 2 weeks.
结果软骨细胞无支架培养形成软骨,具有一定的骺软骨组织学特征。
Results Chondrocytes without scaffold formed cartilage which obtained some hyaline like histological characteristics by culture in centrifuge tube.
骨形态发生蛋白(BMP)是一类具有高效成骨活性的蛋白质,因其能够异位诱导间充质细胞分化为软骨和骨细胞而形成新骨,在临床骨缺损修复中具有良好的应用前景。
Bone morphogenetic protein (BMP) has good potential in treatment for bone defects as it can induce mesenchymal cells to differentiate into cartilage cells and bone cells so to form new bone.
其主要病理特点是滑膜细胞增生、衬里层增厚、多种炎性细胞浸润、血管翳形成,以及软骨和骨组织的破坏。
Histopathologic features of RA encompass infiltration by macrophages and T cells synovial lining hyperplasia, neoangiogenesis, pannus formation and destruction of cartilage and bone.
组织学检查显示:对照组中可见大量团聚软骨细胞、骨小梁紊乱,无明显骨皮质、髓腔形成。
Histology showed that control group had massive cartilage cell gathering together and bone trabecula disturbance, it had no significant bone cortex and medullary cavity formation.
目的了解两种材料表面软骨细胞的增殖特性预测形成组织工程化关节软骨的可能性。
Objective To forecast the possibility of new cartilage formation by tissue engineering approach with observation of the cartilage cell proliferation on two difference materials.
有的体细胞制造并保持形成骨骼和软骨的物质。
Some cells of the body manufacture and maintain the material that forms the bone and the cartilage.
在细胞表面标志上,年轻与成年兔形成层及软骨组织表现较多具软骨分化潜力之细胞标志。
For the mesenchymal stem cell marker profiles, cambium layer and cartilage layer all expressed higher chondroprogenitor related marker profiles.
第2周见大量的活跃的成骨细胞、成纤维细胞和间充质细胞,形成骨样组织,软骨细胞增生活跃。
Plenty of active osteoblasts, fibroblasts and mesenchymal cells were seen at the 2nd week, osteoid tissue formed, the proliferation of cartilage was active.
目的研究软骨分化形成蛋白- 2 (CDMP - 2)对小鼠骨髓基质干细胞软骨分化的作用。
Objective To study the cartilage differentiation of mouse mesenchymal stem cells (MSCs) induced by cartilage-derived morphogenetic proteins-2 (CDMP-2) in vitro.
结论:骨髓基质细胞-藻酸钙-生长因子复合材料能形成软骨及骨组织。
CONCLUSION: The compound composed of calcium alginate, BMSCs and growth factor might form bone and cartilaginous tissue.
结论冻干骨表面粘合plga材料种植软骨细胞有可能形成组织工程化关节软骨。
Conclusion To grow the cartilage cell on the surface of freeze-dried bone and PLGA chaff constructs maybe form tissue engineering articular cartilage.
一小滴血含数百万个红细胞,数千个白细胞。有的体细胞制造并保持形成骨骼和软骨的物质。
One tiny drop of blood contains millions of red blood cells and thousands of white blood cells. Some cells of the body manufacture and maintain the material that forms the bone and the cartilage.
方法:自1月龄兔分离软骨细胞,离心管培养2周形成软骨。
Methods:Chondrocytes were isolated from articular cartilage surface of rabbit aged 1 month and formed cartilage after cultivation for 2 weeks.
骨髓基质细胞在损伤骨骺板处形成团块状软骨,未见类似骺板结构。
Bone marrow stromal cells could only repair the epiphyseal lesion with chondrocytes, and could not reform a normal structure of epiphysis.
骨髓基质细胞在损伤骨骺板处形成团块状软骨,未见类似骺板结构。
Bone marrow stromal cells could only repair the epiphyseal lesion with chondrocytes, and could not reform a normal structure of epiphysis.
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