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- Bone tissue ensnaring 骨组织工程
- A branched cell embedded in the matrix of bone tissue. 骨细胞嵌于骨组织母体中的分支细胞
- Dissolution or degeneration of bone tissue through disease. 骨质溶解疾病引起的骨组织的腐朽或退化
- Excessive or abnormal thickening or growth of bone tissue. 骨质增生骨头组织的过度或不正常加厚或生长
- The antler is a bone tissue which can be regenerated postnatally annually. 摘要鹿茸角是雄鹿(驯鹿除外)一种后天可逐年再生的骨组织。
- Replacement of bone tissue by marrow, as in inflammatory bone disease. 髓质化骨头组织被骨髓所取代,如发生于骨头炎症者中
- Replacement of bone tissue by marrow,as in inflammatory bone disease. 髓质化骨头组织被骨髓所取代,如发生于骨头炎症者中
- Conclusions POB, COB and MSC cannot meet the demand of bone tissue engineering. 3种细胞的增殖能力依次为MSC >COB >POB ;
- The absorbable coral hydroxyapatite is a good bone tissue engineering scaffold. 可吸收性珊瑚羟基磷灰石具有促进骨髓基质细胞表达成骨细胞表型、合成细胞外基质的功能,是良好的细胞载体。
- Helps to produce collagen, promoting healthy teeth and soft bone tissue. 协助生产胶原质、促进牙齿及骨骼软骨组织健康。
- Porous magnesium has obvious advantages as bone tissue engineering biomaterial. 多孔镁作为骨组织工程材料具有明显的优势。
- Umbilical cord blood mesenchymal stem cells: The ideal seed cells for bone tissue engineering? 脐血间充质干细胞:骨组织工程学的理想种子细胞?
- Fabrication of scaffolds is one of the primary problems in 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。
- AIM: To investigate the feasibility of calcined bone calcium (CBC) as scaffold material in bone tissue engineering. 目的:探索煅烧骨(calcined bone calcium,CBC)作骨组织工程支架材料的可行性。
- The standard image and bone tissue subtraction images compare the show rate of different segments of the rib fractures. 选取标准图像和骨组织减影图像,并比较两图像对肋骨不同节段骨折的显示率。
- The design and fabrication of bone tissue engineering scaffolds are overviewed as we. 综述了骨组织工程支架材料的设计与制造的发展现状。
- The rest is spent on the animal’s metabolism and on building inedible nerve and bone tissue. 而其余的营养则会流失在动物的新陈代谢以及不宜食用的神经和骨组织中。
- This cocultivation method may become a new one to supply seed cells for bone tissue engineering. 该方法可能成为一种新的骨组织工程种子细胞的获取方法。
- Conclusion BMSCs could be mass cultured to be differentiated into osteoblast as seed cells for bone tissue engineering. 结论培养兔骨髓基质干可向成骨细胞方向分化,作为骨组织工程的种子细胞。
- As a bioactive ceramic, Hydroxyapatite has a wide application in research of bone tissue engineering. 羟基磷灰石作为生物陶瓷材料广泛应用于硬组织损伤修复。