跟腱力学特性对经股骨截肢者扭矩稳定性的影响。
Contribution of Achilles tendon mechanical properties to torque steadiness in persons with transfemoral amputation.
作者信息
Toumi Anis, Smart Rowan, Elie Dimitri, Bassement Jennifer, Leteneur Sébastien, Simoneau-Buessinger Emilie, Jakobi Jennifer
机构信息
Laboratoire d'Automatique de Mécanique et d'Informatique industrielles et Humaines (LAMIH), UMR CNRS 8201, Université Polytechnique Hauts-de-France, Valenciennes, France.
School of Health and Exercise Sciences, University of British Columbia Okanagan, Kelowna, BC, Canada.
出版信息
Prosthet Orthot Int. 2021 Apr 1;45(2):170-177. doi: 10.1177/0309364620966431.
BACKGROUND
How Achilles tendon mechanics and plantar flexion strength and torque steadiness are altered in the intact leg of persons with trauma-related amputation is unknown. Understanding Achilles tendon mechanics following amputation will further inform rehabilitation approaches to enhance posture, balance, and force control.
OBJECTIVE
Conduct a pilot study to quantify plantar flexion maximal voluntary contraction torque, torque steadiness, and Achilles tendon mechanics in persons with unilateral trauma-related transfemoral amputation and controls without amputation.
STUDY DESIGN
Cross-sectional study.
METHODS
Isometric plantar flexion maximal voluntary contractions were performed with the intact leg of ten males with transfemoral amputation (48 ± 14 years) and the dominant leg of age-matched male controls without amputation. Torque steadiness was calculated as the coefficient of variation in torque over 6 s during submaximal tracking tasks (5%, 10%, 25%, 50%, and 75% maximal voluntary contraction). Achilles tendon elongation and cross-sectional area were recorded with ultrasound to calculate strain, stress, and stiffness.
RESULTS
Maximal voluntary contraction and torque steadiness did not differ between persons with amputation (90.6 ± 31.6 N m, 3.7 ± 2.0%) and controls (95.8 ± 26.8 N m, 2.9 ± 1.2%; p > 0.05). Tendon stiffness (21.1 ± 18.2 N/mm) and strain (5.2 ± 1.3%) did not differ between groups (p > 0.05). Tendon cross-sectional area was 10% greater in persons with amputation leading to 29% lower stress (p = 0.021). Maximal voluntary contraction was a predictor of a lower coefficient of variation in torque (R2 = 0.11, p < 0.05).
CONCLUSION
Persons with trauma-related transfemoral amputation do not differ in plantar flexion maximal voluntary contraction and torque steadiness of the intact leg compared with controls without amputation. Larger tendon cross-sectional area reduces stress and enables distribution of force across a greater area.
背景
创伤相关截肢患者健侧腿的跟腱力学、跖屈力量和扭矩稳定性如何改变尚不清楚。了解截肢后的跟腱力学将进一步为增强姿势、平衡和力量控制的康复方法提供信息。
目的
开展一项试点研究,以量化单侧创伤相关经股骨截肢患者和非截肢对照者的跖屈最大自主收缩扭矩、扭矩稳定性和跟腱力学。
研究设计
横断面研究。
方法
对10名经股骨截肢男性(48±14岁)的健侧腿和年龄匹配的非截肢男性对照者的优势腿进行等长跖屈最大自主收缩。在次最大跟踪任务(5%、10%、25%、50%和75%最大自主收缩)期间,将扭矩稳定性计算为6秒内扭矩的变异系数。用超声记录跟腱伸长和横截面积,以计算应变、应力和刚度。
结果
截肢患者(90.6±31.6 N·m,3.7±2.0%)和对照者(95.8±26.8 N·m,2.9±1.2%;p>0.05)之间的最大自主收缩和扭矩稳定性无差异。两组之间的肌腱刚度(21.1±18.2 N/mm)和应变(5.2±1.3%)无差异(p>0.05)。截肢患者的肌腱横截面积大10%,导致应力低29%(p=0.021)。最大自主收缩是扭矩变异系数较低的一个预测因素(R2=0.11,p<0.05)。
结论
与非截肢对照者相比,创伤相关经股骨截肢患者健侧腿的跖屈最大自主收缩和扭矩稳定性无差异。较大的肌腱横截面积可降低应力,并使力分布在更大的面积上。
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