Shear wave speeds track axial stress in porcine collateral ligaments.

Jonathon L. Blank, D. Thelen, J. Roth
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引用次数: 9

Abstract

Ligament tension is an important factor that can affect the success of total knee arthroplasty (TKA) procedures. However, surgeons currently lack objective approaches for assessing tension in a particular ligament intraoperatively. The purpose of this study was to investigate the use of noninvasive shear wave tensiometry to characterize stress in medial and lateral collateral ligaments (MCLs and LCLs) ex vivo and evaluate the capacity of shear wave speed to predict axial load. Nine porcine MCL and LCL specimens were subjected to cyclic axial loading while shear wave speeds were measured using laser vibrometry. We found that squared shear wave speed increased linearly with stress in both the MCL (r2avg = 0.94) and LCL (r2avg = 0.98). Shear wave speeds were slightly lower in the MCL than the LCL when subjected to a comparable axial stress (p < 0.001). Specimen-specific calibrations predicted tension within 13.0 N, or 5.2% of the maximum load. A leave-one-out analysis was also performed and showed that calibrated relationships based on ligament type could predict axial tension within 15% of the maximum load. These observations suggest it may be feasible to use noninvasive shear wave speed measures as a proxy of ligament loading, which in the future might enhance decision making during orthopedic procedures such as TKA.
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横波速度跟踪轴向应力在猪副韧带。
韧带张力是影响全膝关节置换术成功与否的重要因素。然而,外科医生目前缺乏客观的方法来评估术中特定韧带的张力。本研究的目的是研究使用无创剪切波张力测量法来表征体内内侧和外侧副韧带(mcl和LCLs)的应力,并评估剪切波速度预测轴向载荷的能力。采用激光振动仪对9个猪MCL和LCL试件进行了轴向循环加载,同时测量了剪切波速。我们发现,在MCL (r2avg = 0.94)和LCL (r2avg = 0.98)中,剪切波速的平方随应力的增加而线性增加。当受到相当的轴向应力时,MCL的横波速度略低于LCL (p < 0.001)。样品特异性校准预测张力在13.0 N,或最大负载的5.2%。我们还进行了一项遗漏分析,结果显示,基于韧带类型的校准关系可以在最大载荷的15%内预测轴向张力。这些观察结果表明,使用无创剪切波速测量作为韧带负荷的代表是可行的,这在未来可能会增强诸如TKA等骨科手术中的决策。
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