Finite Element Analysis of Mechanical Characteristics of Internal Fixation for Treatment of Proximal Femoral Osteolytic Lesions in Children

Author:

Wang Yi‐chen1,Yang Dan1,Zhao Li‐hua1,Xiao Bo1,Ma Qi‐chao1,Dong Liang‐chao1,Li Xiang2,Zhang Yu‐guo1,Zhang Zi‐ming1,Luo Yi1ORCID

Affiliation:

1. Department of Orthopedics, Shanghai Children's Hospital, School of medicine Shanghai Jiao Tong University Shanghai China

2. School of Mechanical Engineering Shanghai Jiao Tong University Shanghai China

Abstract

ObjectivesClinically, it is very difficult to prevent pathological fracture caused by high recurrence rate of osteolytic disease of proximal femur in children. At present, there is no consensus in clinical studies of which internal fixation method can significantly reduce the probability of recurrence of pathological fracture. The study aims to research the mechanical properties of different internal fixations in the treatment of osteolytic lesions of proximal femur in children by finite element analysis, and to find out the optimal treatment.MethodsBased on finite element analysis, the osteolytic disease models of the femoral neck and intertrochanter in a child (8‐year‐old, boy) were established respectively, and different internal fixation models (plate and titanium elastic intramedullary nails, TENs) were assembled. For the osteolytic lesion of the femoral neck: model A1 was assembled with a plate; model A2 with two TENs crossing the physis; model A3 with two TENs without crossing the physis. And for pertrochanteric osteolytic lesion: model B1 was assembled with a plate, model B2 with two TENs crossing the physis and model B3 with two TENs without crossing the physis. The Eccentric bearing load, torsional restraintal restraint of calcar femorale and composite load were analyzed for each models.ResultsWhen the yield strain of each model is reached, the stress concentration points are located in the proximal and distal femoral calcar. In the model of femoral neck lesions, the failure load of model A1 and model A2 are the same (1250 N), and the failure load of model A3 (980 N) is significantly lower than that of the former two; in the model of intertrochanteric lesions, the failure load of model B2 is the largest (1350 N), and the failure load of model B1 (1220 N) is lower than that of model B3 (1260 N), but both are smaller than that of model B2.ConclusionThrough finite element analysis, TENs through the epiphyseal plate, is found to be the better internal fixation method for femoral neck lesions and intertrochanteric lesions under two different working conditions. The results of clinical correlation study provide new biomechanical information for orthopedic doctors to consider different treatment options for osteolytic lesions of proximal femur.

Publisher

Wiley

Subject

Orthopedics and Sports Medicine,Surgery

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