Results Under every load, the maximum stress of femoral neck concentrated on the region above lesser trochanter.
结果在各种载荷下,股骨颈和股骨干各有一个应力集中部位。
According to the clinical experience, the femur neck and inferolateral shaft of femur of the lesser trochanter are all the catagmatic range.
对比临床,股骨颈和小转子外下侧股骨干部分也是可能导致骨折的区域。
Objective To study whether reduction fixation of lesser trochanter influences the stability of prosthesis through biomechanical experiments.
目的本研究通过生物力学实验评估小粗隆复位固定对假体柄稳定性的影响。
Osteotomies were created in left femurs at a 33-degree angle, running inferolaterally from the lesser trochanter to mimic reverse obliquity intertrochanteric fractures.
在左股骨上以33度角行骨切开术,远端从小转子倾斜向上制造反转子间骨折模型。
No statistical difference was found in vertical migration value of prostheses for lesser trochanter fixation and cement reinforcement after they were tested 10 000 cycles.
三个试 验组试件完成最终第10 000次循环测试后,其轴向位移数据的均值差异不具有统计学意义;
Objective Unstable intertrochanteric hip fractures are characterized by comminution of the posteromedial cortex and a fragment of variable size containing the lesser trochanter.
目的讨论股骨转子间骨折伴小转子骨折是否需要固定。
Methods Diaplasis the femoral lesser trochanter , reconstructing the femoral calcar, recovering the dissection shape of the femur neck fundus, and then replacing the artificial femoral head.
方法复位股骨小粗隆,重建股骨距,恢复股骨颈基底部解剖形态,再行人工股骨头置换术。
Methods Diaplasis the femoral lesser trochanter , reconstructing the femoral calcar, recovering the dissection shape of the femur neck fundus, and then replacing the artificial femoral head.
方法复位股骨小粗隆,重建股骨距,恢复股骨颈基底部解剖形态,再行人工股骨头置换术。
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