Conclusion the artificial epiphyseal plate can repair the epiphyseal plate injury, and the effect is satisfied.
结论:人工骺板软骨应能够修复骺板软骨损伤,效果满意。
Objective To investigate the possibility of repairing the epiphyseal plate injury using artificial epiphyseal plate.
目的:探讨人工骺板软骨移植修复骺板损伤。
Objective To explore changes of micro framework of the collagen fibers of the epiphyseal plate following traction separation.
目的探讨骺板受到牵拉后其胶原纤维超微构筑的变化。
This article reviews the current development and prospects for the expression of growth factors in the epiphyseal plate injury.
本文结合国内外最新研究成果对骺板损伤过程中多种生长因子表达规律进行综述。
Moreover, the high phosphorus diets appeared the tendency of epiphyseal plate thickness and bone cortical thickness decreasing.
高磷日粮呈现降低生长板和骨皮质厚度的趋势。
The main results were as follows:1. Growth of epiphyseal plate increased in 2 and 4 weeks hut decreased and even ceased after 6 weeks.
结果表明,短时间损伤(2~4周)生长加速,长时问损伤(6周以后)生长减慢甚至停止。
The epiphyseal plate cartilage in the phalanges of 5 patients with Kaschin-Beck disease was observed by transmission electron microscopy.
本文用透射电镜观察5例大骨节病人指(趾)骨的骺板软骨。
Methods The left tibial epiphyseal plate of rabbit was resected about 1/3 to 1/2, then the artificial epiphyseal plate were transplanted;
方法:切除家兔左侧胫骨上端骺板软骨约1/3~1/2,制备人工骺板软骨构件移植入该骺板损伤处;
Conclusion Tissue engineering epiphyseal plate can be constructed with CACEM and growth plate cells in vitro, thus laying a foundation for further study.
结论异种脱细胞软骨基质和骺板软骨细胞在体外成功构建出组织工程骺板,为下一步研究奠定基础。
Those changes and the obstacle of endochondral ossification in epiphyseal plate cartilage may be a reason of abnormalities of bone stripes in the zone of bone deposition.
骺板软骨病变及其相关的软骨内成骨障碍是导致成骨区骨纹异常的原因。
Cartilage cultured in centrifuge tube has unique ultrastructure and was similar to articular chondrocyte and epiphyseal plate, but it was markedly different from meniscus.
离心管培养形成的软骨有独特的超微结构,与关节软骨及骺板有一定的相似性,而与半月板有明显区别。
Objective To study the construction of tissue-engineering growth plate with co-cultured epiphyseal plate cells and allograft articular cartilage extracellular matrix (CACEM).
目的探索兔骺板细胞和异种脱细胞软骨基质共同培养构建组织工程骺板的可行性。
During this period, the appropriate amount of exercise can increase the stimulation to the epiphyseal plate and accelerate the proliferation of bone cell, so as to promote children's bone growth.
这个阶段,适量的锻炼可增加对骨端骺板的刺激,加速骨细胞的增殖,从而促进儿童的骨骼生长。
Objective: to study the mechanism of epiphyseal growth plate narrowing due to limb lengthening by metaphyseal osteotomy.
目的:探讨干骺端截骨延长引起骨骺板缩窄的发生机理。
Objective: to study the mechanism of epiphyseal growth plate narrowing due to limb lengthening by metaphyseal osteotomy.
目的:探讨干骺端截骨延长引起骨骺板缩窄的发生机理。
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