常见下肢康复训练中的关节动力学与运动学
Joint Kinetics and Kinematics During Common Lower Limb Rehabilitation Exercises.
作者信息
Comfort Paul, Jones Paul Anthony, Smith Laura Constance, Herrington Lee
机构信息
Directorate of Sport, Exercise and Physiotherapy, University of Salford, Manchester, United Kingdom.
出版信息
J Athl Train. 2015 Oct;50(10):1011-8. doi: 10.4085/1062-6050-50.9.05. Epub 2015 Sep 29.
CONTEXT
Unilateral body-weight exercises are commonly used to strengthen the lower limbs during rehabilitation after injury, but data comparing the loading of the limbs during these tasks are limited.
OBJECTIVE
To compare joint kinetics and kinematics during 3 commonly used rehabilitation exercises.
DESIGN
Descriptive laboratory study.
SETTING
Laboratory.
PATIENTS OR OTHER PARTICIPANTS
A total of 9 men (age = 22.1 ± 1.3 years, height = 1.76 ± 0.08 m, mass = 80.1 ± 12.2 kg) participated.
INTERVENTION(S): Participants performed the single-legged squat, forward lunge, and reverse lunge with kinetic data captured via 2 force plates and 3-dimensional kinematic data collected using a motion-capture system.
MAIN OUTCOME MEASURE(S): Peak ground reaction forces, maximum joint angles, and peak sagittal-joint moments.
RESULTS
We observed greater eccentric and concentric peak vertical ground reaction forces during the single-legged squat than during both lunge variations (P ≤ .001). Both lunge variations demonstrated greater knee and hip angles than did the single-legged squat (P < .001), but we observed no differences between lunges (P > .05). Greater dorsiflexion occurred during the single-legged squat than during both lunge variations (P < .05), but we noted no differences between lunge variations (P = .70). Hip-joint moments were greater during the forward lunge than during the reverse lunge (P = .003) and the single-legged squat (P = .011). Knee-joint moments were greater in the single-legged squat than in the reverse lunge (P < .001) but not greater in the single-legged squat than in the forward lunge (P = .41). Ankle-joint moments were greater during the single-legged squat than during the forward lunge (P = .002) and reverse lunge (P < .001).
CONCLUSIONS
Appropriate loading progressions for the hip should begin with the single-legged squat and progress to the reverse lunge and then the forward lunge. In contrast, loading progressions for the knee and ankle should begin with the reverse lunge and progress to the forward lunge and then the single-legged squat.
背景
单侧负重训练常用于受伤后康复期间增强下肢力量,但关于这些训练任务中两侧肢体负荷比较的数据有限。
目的
比较3种常用康复训练中的关节动力学和运动学情况。
设计
描述性实验室研究。
地点
实验室。
患者或其他参与者
共9名男性参与(年龄 = 22.1 ± 1.3岁,身高 = 1.76 ± 0.08米,体重 = 80.1 ± 12.2千克)。
干预措施
参与者进行单腿深蹲、前弓步和后弓步动作,通过2块测力板采集动力学数据,使用运动捕捉系统收集三维运动学数据。
主要观察指标
地面反作用力峰值、最大关节角度和矢状面关节力矩峰值。
结果
我们观察到,单腿深蹲时的离心和向心垂直地面反作用力峰值大于两种弓步动作时(P ≤ 0.001)。两种弓步动作的膝关节和髋关节角度均大于单腿深蹲(P < 0.001),但两种弓步动作之间无差异(P > 0.05)。单腿深蹲时的背屈角度大于两种弓步动作(P < 0.05),但两种弓步动作之间无差异(P = 0.70)。前弓步时的髋关节力矩大于后弓步(P = 0.003)和单腿深蹲(P = 0.011)。单腿深蹲时的膝关节力矩大于后弓步(P < 0.001),但不大于前弓步(P = 0.41)。单腿深蹲时的踝关节力矩大于前弓步(P = 0.002)和后弓步(P < 0.001)。
结论
髋关节的适当负荷进阶应从单腿深蹲开始,然后进展到后弓步,再到前弓步。相比之下,膝关节和踝关节的负荷进阶应从后弓步开始,然后进展到前弓步,再到单腿深蹲。
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