cartilaginous tissue
英 [ˌkɑːtɪˈlædʒɪnəs ˈtɪʃuː]
美 [ˌkɑːrtɪˈlædʒɪnəs ˈtɪʃuː]
软骨组织;软骨细胞
双语例句
- Objective To explore CT characters of lumbar posterior superior marginal intraosseous cartilaginous node ( LPMN) and it influence on the tissue around LPMN.
目的:探讨腰椎后上缘软骨结节(LPMN)的CT特征,及其对周围结构的影响。 - The Development and Application of β-TCP Porous Bioceramic for the Scaffold of Cartilaginous Tissue Engineering
β-TCP多孔生物陶瓷软骨组织工程支架的研发及应用研究 - Conclusion: The evolution from dense connective tissue of perichondrial outmost layer to mature cartilaginous tissue showed a continuous evolving histokinetic pro-cess.
结论:从软骨膜最外层致密结缔组织到成熟软骨组织呈现一个连续的组织演化动力学过程; - The Study of Cartilage Cell-Chitosan Complex Constructing Cartilaginous Tissue in Vivo
软骨细胞与壳聚糖复合物体内构建软骨组织的研究 - The Development of the Chondrocyte Transplanta-tion and the Engineered Cartilaginous Tissue
软骨细胞移植的载体与软骨组织工程学进展 - Conclusion These results suggest that the low intensity pulsed ultrasound can effectively accelerate the reparation of injuried bone and cartilaginous tissue via the increased release of TGF-β during three main stages of bone-healing.
结论:低强度脉冲超声通过影响骨折不同时期TGF-β的表达及含量的变化,促进骨、软骨组织的损伤修复,有效促进骨折愈合。 - There were noncellular regions and giant cells in the normal cartilaginous tissue.
在残留的软骨细胞影子或细胞核碎片的周围,可见无细胞区及软骨巨细胞。 - Study on cell necrosis in cartilaginous tissue of human embryo
人胚胎软骨组织内细胞坏死的形态学研究 - Conclusion: 1. The study showed that degradative speed of modified fibrin gel scaffold were kept up with cartilaginous tissue formed in vitro for a long duration, and it fitted for rotating culture, which maybe the suitable scaffold for cartilage tissue engineering.
结论:1.经过改良的纤维蛋白胶支架,其降解速率与软骨组织基质形成同步,能长时间支持体外软骨组织的形成,并适合旋转培养,是软骨组织工程中适宜的支架。 - Results: There was fibrous tissue in the defect of lamina after laminectomy. First formed cartilaginous tissue in fibrous, and then evolved into osseous tissues, and finally into.
结果:全椎板切除后在椎板缺损部位纤维化,首先是在骨组织缺损的边缘软骨组织形成,然后再演变为骨组织,最后形成再生椎板。 - HA ( Hyaluronic Acid, Hyaluronan, HA) is a main constituent of human and animal skin, vitreous body, cartilaginous tissue and arthral synovia.
透明质酸(HA)是人和动物皮肤、玻璃体、软骨组织和关节滑液的重要组成成分。 - Some reports suggested that MSCs can differentiate into epidermal tissue, bone tissue, cartilaginous tissue, nervous tissue by the effect of different chemicals and cytokine.
已有研究证实在不同的化学药物或细胞因子的作用下,MSCs可向表皮组织,骨组织,软骨组织,神经组织等分化。