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- Congenital angulation of tibia 先天性胫骨角形成
- Fatigue Fracture of Tibia in School Age Children. 学龄期儿童胫骨疲劳性骨折
- Shaded segment shows portion of tibia to be remoed. 斜线部分显示胫骨取骨的部分。
- Note that thick, strong angles of tibia are not violated. 注意肥厚、结实的胫骨成角部分未受损坏。
- Shaded segment shows portion of tibia to be removed. 斜线部分显示胫骨取骨的部分。
- Angulation of the forequarters and hindquarters should be balanced. 足爪:相当小,非常稳固,脚趾圆拱且紧凑。
- Angulation of hindquarters should be in balance with forequarters. 后躯角度应与前躯平衡。
- Angulation of hindquarters balances that of forequarters. 后腿及臂部有角的部位使其与前半部平衡。
- Objective To examine the expression of CGRP in congenital pseudarthrosis of tibia (CPT) in order to find the pathogenesis of CPT. 摘要目的明确降钙素基因相关肽(CGRP)在先天性胫骨假关节(CPT)病变组织中的表达,以进一步研究CPT的病因及发病机制。
- Objective To determine the expression level and distribution of type I or III collagen of congenital pseudarthrosis of tibia (CPT). 目的明确先天性胫骨假关节(CPT)病变骨膜中I、III型胶原的含量及排列。
- The angulation of the hindquarters balances that of the forequarters. [颈部、背线、身躯] 颈部骄傲地昂着,肌肉发达且紧凑。
- Note that thick, strong angles of tibia are not iolated. 注意肥厚、结实的胫骨成角部分未受损坏。
- Hindquarters The angulation of the hindquarters balances that of the forequarters. [颈部、背线、身躯] 颈部骄傲地昂着,肌肉发达且紧凑。
- The angulation of the pelvis and femur corresponds to that of the shoulder and upper arm. 骨盆与大腿骨的角度同肩胛骨与上臂骨的角度协调。
- The angulation of the hindquarters is similar in degree to that of the forequarters. 后腿的角度与同侧的前脚的角度是相似的。
- CT exams detected 4 fractures of tibia intercondylar eminence and... CT可以作为评价膝关节细微损伤的一种补充方法,但不应作为常规检查。
- Objective:To investigate the treatment of infected nonunion of tibia. 目的:探讨胫骨感染性骨不连的治疗。
- The angulation of the pelvis and upper thigh corresponds to the angulation of the shoulder blade and upper arm, forming an approximate right angle. 前臂,与肩胛骨长度一致,与肩胛骨的角度接近直角,前肢正好在肩胛正下方,垂直于地面。
- Broad and long, with an approximate angulation of 30 degrees to the horizontal line, showing a smooth curve.It stands a little higher than the withers. 宽而长,与水平面呈约30度的斜角,呈现出圆滑的曲线,其臀部比肩部略高。
- For functional efficiency, the angulation of the hindquarter is never greater than that of the forequarter, and not appreciably less. 考虑到功能和效率,后躯的角度决不能大于前躯,更不能有任何缺乏。