股骨近端锁定钉系统中近端锁定螺钉在股骨头内位置的数值优化;生物力学研究。
Numerical Optimization of the Position in Femoral Head of Proximal Locking Screws of Proximal Femoral Nail System; Biomechanical Study.
机构信息
Department of Orthopeadics and Traumatology, Afyon Kocatepe University School of Medicine, Afyon, Turkey.
Department of Mechanics, Afyon Kocatepe University School of Engineering, Afyon, Turkey.
出版信息
Balkan Med J. 2017 Sep 29;34(5):425-431. doi: 10.4274/balkanmedj.2016.0732. Epub 2017 Apr 6.
BACKGROUND
Proximal femoral fracture rates are increasing due to osteoporosis and traffic accidents. Proximal femoral nails are routinely used in the treatment of these fractures in the proximal femur.
AIMS
To compare various combinations and to determine the ideal proximal lag screw position in pertrochanteric fractures (Arbeitsgemeinschaft für Osteosynthesefragen classification 31-A1) of the femur by using optimized finite element analysis.
STUDY DESIGN
Biomechanical study.
METHODS
Computed tomography images of patients' right femurs were processed with Mimics. Afterwards a solid femur model was created with SolidWorks 2015 and transferred to ANSYS Workbench 16.0 for response surface optimization analysis which was carried out according to anterior-posterior (-10°<anterior-posterior<10°), inferior-superior (-6°<inferior-superior<7°) and tip-apex distance (10 mm<tip-apex distance<30 mm) proximal lag screw positions in the fracture region. The optimum position of the proximal lag screw was determined based on the von Mises stress values occurring on the fracture line. Initial analysis of the system was realized under the surgeon's normal positioning conditions (anterior-posterior, inferior-superior=0°; tip-apex distance=12 mm).
RESULTS
The maximum and minimum (compression) von Mises stresses were found to be 438 MPa and 0.003 MPa, respectively, and risky stresses for the system occurred in the regions where the proximal lag screw passes through the proximal femoral nail hole, the small diameter portion of stem joints with a large diameter and lag screw mounts to the stem. The most suitable position of the proximal lag screw was found at the middle position of the tip-apex distance (20 mm) and femoral neck (anterior-posterior, inferior-superior=0°), according to von Mises compression stress values occurring on the fracture line.
CONCLUSION
In our study, we couldn't find any correlation between proximal lag screw movement and tip-apex distance on stresses of the fracture surfaces, but the proximal lag screw position in the inferior (inferior-superior<0)-superior (inferior-superior>0) and posterior-anterior directions of the femur neck significantly increased these stresses. The most suitable position of the proximal lag screw was confirmed as the middle of the femoral neck by using optimized finite element analysis.
背景
由于骨质疏松症和交通事故,股骨近端骨折的发生率正在增加。股骨近端髓内钉通常用于治疗股骨近端的这些骨折。
目的
通过优化有限元分析,比较各种组合并确定股骨转子间骨折( Arbeitsgemeinschaft für Osteosynthesefragen 分类 31-A1)中理想的近端拉力螺钉位置。
研究设计
生物力学研究。
方法
对患者右侧股骨的计算机断层扫描图像进行 Mimics 处理。然后使用 SolidWorks 2015 创建一个实体股骨模型,并将其传输到 ANSYS Workbench 16.0 进行响应面优化分析,该分析是根据骨折区域内的前-后(-10°<前-后<10°)、下-上(-6°<下-上<7°)和尖端-顶点距离(10mm<尖端-顶点距离<30mm)的近端拉力螺钉位置进行的。根据骨折线上出现的 von Mises 应力值确定近端拉力螺钉的最佳位置。系统的初始分析是在外科医生的正常定位条件下(前-后、下-上=0°;尖端-顶点距离=12mm)下进行的。
结果
最大和最小(压缩)von Mises 应力分别为 438MPa 和 0.003MPa,系统的危险应力发生在近端拉力螺钉穿过股骨近端髓内钉孔、大头与小头关节的小直径部分以及拉力螺钉与杆连接的区域。根据骨折线上出现的 von Mises 压缩应力值,发现近端拉力螺钉最适合的位置在尖端-顶点距离(20mm)和股骨颈的中间位置(前-后、下-上=0°)。
结论
在我们的研究中,我们没有发现近端拉力螺钉运动与尖端-顶点距离之间与骨折表面的应力之间存在任何相关性,但股骨颈的下(下-上<0)-上(下-上>0)和后-前方向的近端拉力螺钉位置显著增加了这些应力。通过优化有限元分析,确认近端拉力螺钉的最佳位置是股骨颈的中间位置。
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