机构地区:[1]西安交通大学附属3201医院骨科,陕西省汉中市723000 [2]重庆文理学院,重庆市402160
出 处:《中国组织工程研究》2021年第15期2334-2340,共7页Chinese Journal of Tissue Engineering Research
摘 要:背景:胫后肌腱转位作为治疗腓总神经不可逆性损害所致足下垂的金标准,对其临床疗效研究报道甚多,但一直缺少详细的有限元受力分析。目的:建立腓总神经损伤所致足下垂三维有限元模型,分析力学特性,并与传统经验相互验证。方法:①导入1例左侧腓总神经损伤导致左侧足下垂男性患者的足踝部CT数据,运用MIMICS、Cero、Abaqus、ANSYS等一系列软件重建足踝部骨骼;②选择10位受试者,测量计算出表面肌电信号的均方根幅值RMS,对肌力大小进行预估;③赋予各个部分的材料参数,得出具有正常足的有限元模型,模拟腓总神经完全损伤所致的足下垂畸形状态;④在此基础上,对胫后肌腱转位,锚定点分别确定为内、中、外侧楔骨,转位肌腱将足固定于背伸10°位,且转位后胫后肌肌力下降一级;⑤对3个不同锚定位置的2次下垂状态进行有限元受力分析,分别计算这9种工况下的踝关节背屈、内外翻角度以及转位肌腱的最大应力。研究方案的实施符合西安交通大学附属3201医院的相关伦理要求。所有受试者均对试验过程完全知情同意。结果与结论:①正常足模型的背伸、跖屈角度均接近且小于极限角度(背伸25.62°<27°,跖屈43.67°<45°);下垂足模型背伸状态的背伸角度为-44.65°,与研究对象的背伸角度-47°相比,较为接近;②纠正足下垂畸形的效果最明显、肌腱所受应力最小的是锚定中间楔骨;纠正足下垂畸形的效果最差、肌腱所受应力最大、有轻度外翻踝作用的是锚定外侧楔骨;具有内翻踝作用的是锚定内侧楔骨;③转位后肌腱的应力集中点在肌腱与骨接触的锚定点附近;④结果说明,有限元建立的足踝生物力学模型可以初步模拟正常足和腓总神经完全损伤源性的下垂足;治疗足下垂畸形时,优选中间楔骨作为转位后锚定点,可以获得较佳的力学效应。此结论与传统手术经验相符合,�BACKGROUND:The transposition of the posterior tibial tendon is the gold standard for the treatment of foot drop caused by irreversible damage to the common peroneal nerve.There are many reports on its clinical efficacy,but there has been a lack of detailed finite element force analysis.OBJECTIVE:To reconstruct the three-dimensional finite element model of foot drop caused by common peroneal nerve injury,analyze mechanical characteristics and verify with traditional experience METHODS:(1)CT data of a male patient with left foot drop caused by left common peroneal nerve injury were collected and imported in the software to reconstruct foot and ankle bones with a series software,such as MIMICS,Cero,Abaqus,and ANSYS.(2)Ten young volunteers were enrolled.Their muscle strengths were measured by electrical trigger potentiometer and the root mean square amplitude of surface electromyogram–RMS were calculated.(3)The finite element model of the normal foot was established by limiting material parameters of every part.Based on this model,we simulated the foot drop state caused by total injury of the common peroneal nerve.(4)The posterior tibial tendon transposition,entocuneiform,mesocuneiform,and ectocuneiform were identified as the tendon anchored points.The foot was fixed at dorsiflexion position 10°through the transferent tendon,and the tibialis posterior muscle strength would drop one level after the transposition.(5)After analysis of finite element on the two droop states of three different anchoring positions,the ankle dorsiflexion angles,internal and external rotation angles,and the maximum stress of the transposition of the tendon were calculated under these nine conditions.The implementation of the research program meets the ethical requirements of 3201 Hospital Affiliated to Xi'an Jiaotong University.All patients were fully informed and agreed to the trial process.RESULTS AND CONCLUSION:(1)Dorsiflexion and plantar flexion angles of the normal foot model were close to and less than the limit angle(Dorsiflexion 2
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