股骨颈系统去除前后股骨近端的生物力学变化。
Biomechanical changes in the proximal femur before and after removal of femoral neck system.
机构信息
Department of Orthopedic, Baoding No. 1 Central Hospital, Baoding, Hebei Province, 071000, China.
Department of Spinal Surgery, The Third Hospital of Hebei Medical University, Shijiazhuang, Hebei Province, 050000, China.
出版信息
J Orthop Surg Res. 2024 May 12;19(1):290. doi: 10.1186/s13018-024-04769-x.
BACKGROUND
As an innovative internal fixation system, FNS (femoral neck system) is increasingly being utilized by surgeons for the treatment of femoral neck fractures. At present, there have been numerous finite element analysis experiments studying the immediate stability of FNS and CSS in treating femoral neck fractures. However, there is scarce mechanical analysis available regarding the effects post internal fixation removal. This study aimed to investigate the alterations in mechanical parameters of the proximal femur before and after the removal of FNS (femoral neck system), and to assess potential distinctions in indicators following the extraction of CSS (Cannulated Screws).
METHODS
A proximal femur model was reconstructed using finite element numerical techniques. The models for CSS and FNS were formulated utilizing characteristics and parametric definitions. The internal fixation was combined with a normal proximal femur model to simulate the healing state after fracture surgery. Within the framework of static analysis, consistent stress burdens were applied across the entirety of the models. The total deformation and equivalent stress of the proximal femur were recorded before and after the removal of internal fixation.
RESULTS
Under the standing condition, the total deformation of the model before and after removing CSS was 0.99 mm and 1.10 mm, respectively, indicating an increase of 12%. The total deformation of the model before and after removing FNS was 0.65 mm and 0.76 mm, respectively, indicating an increase of 17%. The equivalent stress for CSS and FNS were 55.21 MPa and 250.67 MPa, respectively. The average equivalent stress on the cross-section of the femoral neck before and after removal of CSS was 7.76 MPa and 6.11 MPa, respectively. The average equivalent stress on the cross-section of the femoral neck before and after removal of FNS was 9.89 MPa and 8.79 MPa, respectively.
CONCLUSIONS
The retention of internal fixation may contribute to improved stability of the proximal femur. However, there still existed risks of stress concentration in internal fixation and stress shielding in the proximal femur. Compared to CSS, the removal of FNS results in larger bone tunnels and insufficient model stability. Further clinical interventions are recommended to address this issue.
背景
作为一种创新的内固定系统,FNS(股骨颈系统)越来越多地被外科医生用于治疗股骨颈骨折。目前,已经有许多有限元分析实验研究了 FNS 和 CSS 治疗股骨颈骨折的即刻稳定性。然而,对于内固定去除后的力学影响,机械分析却很少。本研究旨在探讨 FNS(股骨颈系统)去除前后股骨近端力学参数的变化,并评估 CSS(空心螺钉)取出后的潜在差异。
方法
使用有限元数值技术重建股骨近端模型。使用特征和参数定义建立了 CSS 和 FNS 的模型。将内固定与正常股骨近端模型相结合,模拟骨折手术后的愈合状态。在静态分析框架内,对所有模型施加一致的应力负荷。记录内固定去除前后股骨近端的总变形和等效应力。
结果
在站立状态下,CSS 去除前后模型的总变形分别为 0.99mm 和 1.10mm,增加了 12%。FNS 去除前后模型的总变形分别为 0.65mm 和 0.76mm,增加了 17%。CSS 和 FNS 的等效应力分别为 55.21MPa 和 250.67MPa。CSS 去除前后股骨颈截面的平均等效应力分别为 7.76MPa 和 6.11MPa。FNS 去除前后股骨颈截面的平均等效应力分别为 9.89MPa 和 8.79MPa。
结论
保留内固定可能有助于提高股骨近端的稳定性。然而,内固定仍存在应力集中和股骨近端应力遮挡的风险。与 CSS 相比,FNS 的去除会导致更大的骨隧道和模型稳定性不足。建议进一步进行临床干预来解决这个问题。
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