慢性踝关节不稳定、对照组和对照组的运动生物力学改变:能量吸收和分布的影响。
Altered Movement Biomechanics in Chronic Ankle Instability, Coper, and Control Groups: Energy Absorption and Distribution Implications.
机构信息
Department of Kinesiology, West Chester University, PA.
Graduate School of Sports Medicine, CHA University, Seongnam, Gyeonggi-do, South Korea.
出版信息
J Athl Train. 2019 Jun;54(6):708-717. doi: 10.4085/1062-6050-483-17. Epub 2019 Jun 11.
CONTEXT
Patients with chronic ankle instability (CAI) exhibit deficits in neuromuscular control, resulting in altered movement strategies. However, no researchers have examined neuromuscular adaptations to dynamic movement strategies during multiplanar landing and cutting among patients with CAI, individuals who are ankle-sprain copers, and control participants.
OBJECTIVE
To investigate lower extremity joint power, stiffness, and ground reaction force (GRF) during a jump-landing and cutting task among CAI, coper, and control groups.
DESIGN
Cross-sectional study.
SETTING
Laboratory.
PATIENTS OR OTHER PARTICIPANTS
A total of 22 patients with CAI (age = 22.7 ± 2.0 years, height = 174.6 ± 10.4 cm, mass = 73.4 ± 12.1 kg), 22 ankle-sprain copers (age = 22.1 ± 2.1 years, height = 173.8 ± 8.2 cm, mass = 72.6 ± 12.3 kg), and 22 healthy control participants (age = 22.5 ± 3.3 years, height = 172.4 ± 13.3 cm, mass = 72.6 ± 18.7 kg).
INTERVENTION(S): Participants performed 5 successful trials of a jump-landing and cutting task.
MAIN OUTCOME MEASURE(S): Using motion-capture cameras and a force plate, we collected lower extremity ankle-, knee-, and hip-joint power and stiffness and GRFs during the jump-landing and cutting task. Functional analyses of variance were used to evaluate between-groups differences in these dependent variables throughout the contact phase of the task.
RESULTS
Compared with the coper and control groups, the CAI group displayed (1) up to 7% of body weight more posterior and 52% of body weight more vertical GRF during initial landing followed by decreased GRF during the remaining stance and 22% of body weight less medial GRF across most of stance; (2) 8.8 W/kg less eccentric and 3.2 W/kg less concentric ankle power, 6.4 W/kg more eccentric knee and 4.8 W/kg more eccentric hip power during initial landing, and 5.0 W/kg less eccentric knee and 3.9 W/kg less eccentric hip power; and (3) less ankle- and knee-joint stiffness during the landing phase. Concentric power patterns were similar to eccentric power patterns.
CONCLUSIONS
The CAI group demonstrated altered neuromechanics, redistributing energy absorption from the distal (ankle) to the proximal (knee and hip) joints, which coincided with decreased ankle and knee stiffness during landing. Our data suggested that although the coper and control groups showed similar landing and cutting strategies, the CAI group used altered strategies to modulate impact forces during the task.
背景
慢性踝关节不稳定(CAI)患者表现出神经肌肉控制不足,导致运动策略改变。然而,目前还没有研究人员检查 CAI 患者、踝关节扭伤缓解者和对照组在多平面着陆和切割过程中神经肌肉对动态运动策略的适应。
目的
研究 CAI、缓解者和对照组在跳跃着陆和切割任务中下肢关节功率、刚度和地面反力(GRF)。
设计
横断面研究。
设置
实验室。
患者或其他参与者
共有 22 名 CAI 患者(年龄=22.7±2.0 岁,身高=174.6±10.4cm,体重=73.4±12.1kg)、22 名踝关节扭伤缓解者(年龄=22.1±2.1 岁,身高=173.8±8.2cm,体重=72.6±12.3kg)和 22 名健康对照组参与者(年龄=22.5±3.3 岁,身高=172.4±13.3cm,体重=72.6±18.7kg)。
干预
参与者完成了 5 次成功的跳跃着陆和切割任务试验。
主要观察指标
使用运动捕捉摄像机和力板,我们在跳跃着陆和切割任务中收集了下肢踝关节、膝关节和髋关节的关节功率和刚度以及 GRFs。功能方差分析用于评估任务接触阶段各组之间这些因变量的差异。
结果
与缓解者和对照组相比,CAI 组在初始着陆时显示(1)多达 7%的体重向后和 52%的体重垂直 GRF,随后在剩余的站立阶段 GRF 减少,在站立阶段的大部分时间内,内侧 GRF 减少 22%;(2)初始着陆时的离心肌和向心肌踝关节功率分别减少 8.8W/kg 和 3.2W/kg,离心肌和向心肌膝关节功率分别增加 6.4W/kg 和 4.8W/kg,离心肌和向心肌髋关节功率分别增加 5.0W/kg 和 3.9W/kg;(3)着陆阶段踝关节和膝关节刚度降低。向心功率模式与离心功率模式相似。
结论
CAI 组表现出神经力学改变,将能量吸收从远端(踝关节)重新分布到近端(膝关节和髋关节)关节,这与着陆时踝关节和膝关节刚度降低有关。我们的数据表明,尽管缓解者和对照组表现出相似的着陆和切割策略,但 CAI 组使用了改变的策略来调节任务中的冲击力量。
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