University of Virginia, Department of Kinesiology, USA.
University of North Carolina at Charlotte, Department of Kinesiology, USA.
Phys Ther Sport. 2021 Mar;48:201-208. doi: 10.1016/j.ptsp.2020.07.005. Epub 2020 Jul 25.
To determine effects of 4-weeks of impairment-based rehabilitation on lower extremity neuromechanics during jump-landing.
Descriptive laboratory study.
Twenty-six CAI subjects (age = 21.4 ± 3.1 sex=(M = 7,F = 19), height = 169.0 ± 8.8 cm, weight = 71.0 ± 13.8 kg) completed 15 jump-landing trials prior to and following 12 supervised rehabilitation sessions.
Frontal and sagittal lower extremity kinematics and kinetics and sEMG amplitudes (anterior tibialis, peroneus brevis, peroneus longus, and medial gastrocnemius). Means and 90% confidence intervals (CIs) were calculated for 100 ms prior to and 200 ms following ground contact. Areas where pre- and post-rehabilitation CIs did not overlap were considered significantly different. Kinematic and kinetic peaks and kinematic excursion were compared with paired t-test (P ≤ 0.05).
Following rehabilitation, CAI subjects exhibited less ankle (2.1° (0.8, 3.4), P < 0.01) and hip (2.0° (0.5, 3.7), P = 0.01) frontal plane excursion and lower peak hip abduction (2.5° (0.0, 5.0), P = 0.05). There was less ankle (5.0° (1.7, 8.3), P < 0.01) and knee (3.4° (0.8, 6.0), P = 0.01) sagittal plane excursion following rehabilitation. There was decreased peroneus longus activity from 9 ms to 135 ms post ground contact and decreased peak plantar flexion moment (0.08 N∗m/kg (0.01, 0.13), P = 0.02) following rehabilitation.
Progressive impairment-based rehabilitation resulted in reductions in kinematic excursion and peroneus longus muscle activity, suggesting a more efficient landing strategy.
确定四周基于损伤的康复治疗对跳跃落地时下肢神经力学的影响。
描述性实验室研究。
26 名 CAI 受试者(年龄=21.4±3.1,性别=(M=7,F=19),身高=169.0±8.8cm,体重=71.0±13.8kg)在完成 12 次监督康复治疗之前和之后,完成了 15 次跳跃着陆试验。
额状面和矢状面下肢运动学和动力学以及表面肌电图振幅(胫骨前肌、腓骨短肌、腓骨长肌和内侧腓肠肌)。在接触地面前 100ms 和后 200ms 计算平均值和 90%置信区间(CI)。在康复前后 CI 不重叠的区域被认为有显著差异。使用配对 t 检验比较运动学和动力学峰值以及运动学位移(P≤0.05)。
康复后,CAI 受试者的踝关节(2.1°(0.8,3.4),P<0.01)和髋关节(2.0°(0.5,3.7),P=0.01)的额状面位移以及髋关节外展峰值较低(2.5°(0.0,5.0),P=0.05)。康复后踝关节(5.0°(1.7,8.3),P<0.01)和膝关节(3.4°(0.8,6.0),P=0.01)矢状面位移减少。从接触地面后 9ms 到 135ms,腓骨长肌的活动减少,并且峰值跖屈力矩降低(0.08 N∗m/kg(0.01,0.13),P=0.02)。
渐进性基于损伤的康复治疗导致运动学位移和腓骨长肌活动减少,表明更有效的着陆策略。
