在实验模型中,股骨偏心距对骨植入物微动无影响。
No effect of femoral offset on bone implant micromotion in an experimental model.
作者信息
Amirouche F, Solitro G, Walia A
机构信息
University of Illinois at Chicago, Department of Orthopaedics, 835, S. Wolcott avenue, Room E270, Chicago, IL 60612, USA.
University of Illinois at Chicago, Department of Orthopaedics, 835, S. Wolcott avenue, Room E270, Chicago, IL 60612, USA.
出版信息
Orthop Traumatol Surg Res. 2016 May;102(3):379-85. doi: 10.1016/j.otsr.2016.01.010. Epub 2016 Mar 9.
BACKGROUND
In total hip replacement (THR), the femoral offset (FO) is assessed preoperatively, and the surgeon must determine whether to restore, increase, or decrease the FO based on experience and the patient's clinical history. The FO is known to influence the abductor muscle strength, range of motion (ROM), gait, and hip pain after THR; however, the true effect of FO on bone implant micromotion is unclear. Therefore, we investigated to assess: (1) the muscle loading response during gait, (2) whether FO affects bone implant micromotion during gait.
HYPOTHESIS
A variation of ±10mm from the anatomical FO affects the muscle loading forces.
MATERIALS AND METHODS
We modified a personalized musculoskeletal model of the lower extremity to determine the 3-dimensional contact forces at the hip joint in the presence of a stem with varying offsets during a gait cycle. A detailed finite element (FE) model was then constructed for increased, restored, and decreased FOs. The maximum load obtained during normal walking gait from the musculoskeletal model was applied to the respective FE models, and the resultant stem-bone micromotion and stress distribution were computed.
RESULTS
Increasing the FO to +10mm decreased the peak force generated by the abductor muscles during the cycle by 15.0% and decreasing the FO to -10mm increased the von Mises stress distribution at the distal bone by 77.5% (P<0.05). A variation of the offset within 10mm of the anatomical offset showed no significant differences in micromotion (P>0.05) and peak stresses (P>0.05).
DISCUSSION
Coupling the musculoskeletal model of the gait cycle with FE analysis provides a realistic model to understand how FO affects bone implant micromotion. We found that there was no effect of FO on bone implant micromotion; thus, a surgeon does not need to evaluate the implications of FO on micromotion and can determine a FO that best decreases the work load of abductor muscles, increases ROM, and reduces hip pain.
LEVEL OF EVIDENCE
IV, biomechanical study.
背景
在全髋关节置换术(THR)中,术前需评估股骨偏心距(FO),外科医生必须根据经验和患者临床病史来决定是恢复、增加还是减小FO。已知FO会影响THR后的外展肌力量、活动范围(ROM)、步态和髋关节疼痛;然而,FO对骨植入物微动的真正影响尚不清楚。因此,我们进行研究以评估:(1)步态期间的肌肉负荷反应,(2)FO在步态期间是否影响骨植入物微动。
假设
与解剖学FO相差±10mm会影响肌肉负荷力。
材料与方法
我们修改了个性化的下肢肌肉骨骼模型,以确定在步态周期中存在不同偏心距柄时髋关节处的三维接触力。然后构建了一个详细的有限元(FE)模型,用于增加、恢复和减小的FO。将从肌肉骨骼模型在正常步行步态期间获得的最大负荷应用于各自的FE模型,并计算由此产生的柄-骨微动和应力分布。
结果
将FO增加到+10mm会使周期中外展肌产生的峰值力降低15.0%,将FO减小到-10mm会使远端骨的冯·米塞斯应力分布增加77.5%(P<0.05)。在解剖学偏心距的10mm范围内改变偏心距,微动(P>0.05)和峰值应力(P>0.05)无显著差异。
讨论
将步态周期的肌肉骨骼模型与有限元分析相结合,提供了一个现实的模型来理解FO如何影响骨植入物微动。我们发现FO对骨植入物微动没有影响;因此,外科医生无需评估FO对微动的影响,可以确定一个能最佳降低外展肌工作量、增加ROM并减轻髋关节疼痛的FO。
证据水平
IV,生物力学研究。
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