Objective: To Construction of three-dimensional model of acetabular bone defect and revision implant.
目的:构建髋臼骨缺损和带翼髋臼翻修假体模型三维模型。
Cross section image could display the fracture and shifting of acetabular bone top, and the posterior fracture, involved scope and joint shift of acetabular bone.
横断面图像可以显示髋臼顶的骨折、髋臼后壁的骨折、累及范围及关节移位等。
Radiographs evaluated union and stability of the femoral and acetabular components, osteolysis, or the development of any heterotopic bone.
线片评估股骨和髋臼组件的稳定性,骨溶解,或异位骨化。
Objective: To study the morphologic features of the acetabular rim opening with 3-dimensional structure of acetabulum bone based on ct scanned image.
目的:利用髋臼骨的CT三维结构重建图像,研究髋臼开口的形态学特征。
Cementless femoral and acetabular components were designed to provide adequate initial stability and to encourage bone to osseointegrate onto or into the implant.
非骨水泥股骨和髋臼假体的设计目的为提供足够的初始固定和促进骨长入假体或长在假体表面。
Results: 11 cases of acetabular fracture surgery in 9 cases, 25 cases of tibial plateau fracture surgery in 22 cases (22 cases bone graft), 20 cases of wrist fracture surgery, 18 routine.
结果:11例髋臼骨折中9例行手术治疗,25例胫骨平台骨折中22例行手术治疗(22例行植骨),20例腕关节骨折中18例行手术治疗。
Conclusion The proper selection of bone graft and suitable prosthesis in total hip joint replacement in cases with severe acetabular defect is the key for having excellent and good results.
结论采用自体骨结构性与颗粒性植骨结合,并选用合适的假体重建髋臼后上壁缺损,效果满意。
Conclusion Tear strains were formed by inner and outer surface bone cortex in the anterior inferior part of acetabular notch.
结论构成泪痕的结构为髋臼窝前下方处的内、外骨皮质影。
The operation treatments were selected first method to settlement the bone shatter displacement in acetabular fracture or unsuitable joint and unsteady joint.
手术是治疗髋臼移位骨折合并关节脱位的首选方法。
The operation treatments were selected first method to settlement the bone shatter displacement in acetabular fracture or unsuitable joint and unsteady joint.
手术是治疗髋臼移位骨折合并关节脱位的首选方法。
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