>Objective: Finite element analysis was used to compare preoperative and postoperative stress distribution of a bone healing model of femur fracture, to identify whether broken ends of fractured bone would break or not after fixation dislodgement one year after intramedullary nailing. >Method s: Using fast, personalized imaging, bone healing models of femur fracture were constructed based on data from multi-slice spiral computed tomography using Mimics, Geomagic Studio, and Abaqus software packages. The intramedullary pin was removed by Boolean operations before fixation was dislodged. Loads were applied on each model to simulate a person standing on one leg. The von Mises stress distribution, maximum stress, and its location was observed. >Results : According to 10 kinds of display groups based on material assignment, the nodes of maximum and minimum von Mises stress were the same before and after dislodgement, and all nodes of maximum von Mises stress were outside the fracture line. The maximum von Mises stress node was situated at the bottom quarter of the femur. The von Mises stress distribution was identical before and after surgery. >Conclusion : Fast, personalized model establishment can simulate fixation dislodgement before operation, and personalized finite element analysis was performed to successfully predict whether nail dislodgement would disrupt femur fracture or not.
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机译:>目的:使用有限元分析比较股骨骨折骨愈合模型的术前和术后应力分布,以确定在髓内钉固定一年后固定后骨折的骨折端是否会断裂。 。 >方法:使用Mimics,Geomagic Studio和Abaqus软件包,根据多层螺旋计算机断层扫描的数据,使用快速的个性化影像,构建股骨骨折的骨愈合模型。在去除固定之前,通过布尔操作将髓内销移除。在每个模型上施加载荷以模拟一个人站立在一条腿上。观察到冯·米塞斯(von Mises)应力分布,最大应力及其位置。 >结果:根据材料分配的10种显示组,最大和最小von Mises应力结点在移位前后是相同的,所有最大von Mises应力结点均在骨折外线。 von Mises的最大应力节点位于股骨的下四分之一处。 von Mises手术前后的应力分布相同。 >结论:快速,个性化的模型建立可以模拟手术前的固定移位,并进行了个性化的有限元分析,以成功预测指甲移位是否会破坏股骨骨折。
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