前交叉韧带重建后 6-12 个月个体在步态中改变峰值垂直地面反作用力的生物力学效应。
Biomechanical effects of manipulating peak vertical ground reaction force throughout gait in individuals 6-12 months after anterior cruciate ligament reconstruction.
机构信息
MOTION Science Institute, Department of Exercise and Sport Science, University of North Carolina at Chapel Hill, Chapel Hill, NC, United States; Human Movement Science Curriculum, University of North Carolina at Chapel Hill, Chapel Hill, NC, United States.
MOTION Science Institute, Department of Exercise and Sport Science, University of North Carolina at Chapel Hill, Chapel Hill, NC, United States; Human Movement Science Curriculum, University of North Carolina at Chapel Hill, Chapel Hill, NC, United States.
出版信息
Clin Biomech (Bristol). 2020 Jun;76:105014. doi: 10.1016/j.clinbiomech.2020.105014. Epub 2020 Apr 22.
BACKGROUND
We aimed to determine the effect of cueing an increase or decrease in the vertical ground reaction force impact peak (peak in the first 50% of stance) on vertical ground reaction force, knee flexion angle, internal knee extension moment, and internal knee abduction moment waveforms throughout stance in individuals 6-12 months after an anterior cruciate ligament reconstruction.
METHODS
Twelve individuals completed 3 conditions (High, Low, and Control) where High and Low Conditions cue a 5% body weight increase or decrease, respectively, in the vertical ground reaction force impact peak compared to usual walking. Biomechanics during High and Low Conditions were compared to the Control Condition throughout stance.
FINDINGS
The High Condition resulted in: (a) increased vertical ground reaction forces at each peak and decreased during mid-stance, (b) greater knee excursion (i.e., greater knee flexion angle in early stance and a more extended knee in late stance), (c) greater internal extension moment for the majority of stance, and (d) lesser second internal knee abduction moment peak. The Low Condition resulted in: (a) vertical ground reaction forces decreased during early stance and increased during mid-stance, (b) decreased knee excursion, (c) increased internal extension moment throughout stance, and (d) decreased internal knee abduction moment peaks.
INTERPRETATION
Cueing a 5% body weight increase in vertical ground reaction force impact peak resulted in a more dynamic vertical ground reaction force loading pattern, increased knee excursion, and a greater internal extension moment during stance which may be useful in restoring gait patterns following anterior cruciate ligament reconstruction.
背景
本研究旨在探讨在膝关节前交叉韧带重建术后 6-12 个月的个体中,通过提示垂直地面反作用力冲击峰值(支撑相前 50%的峰值)的增加或减少,对垂直地面反作用力、膝关节屈曲角度、膝关节内伸力矩和膝关节内展力矩的影响。
方法
12 名参与者分别完成了 3 种条件(高、低和对照),其中高、低条件分别提示垂直地面反作用力冲击峰值比正常行走时增加或减少 5%的体重。在整个支撑相过程中,比较高、低条件与对照条件下的生物力学特征。
发现
高条件导致:(a)每个峰值的垂直地面反作用力增加,中末期减少;(b)膝关节活动度增加(即早期支撑相的膝关节屈曲角度增加,后期支撑相的膝关节伸展角度增加);(c)大多数支撑相的膝关节内伸力矩增大;(d)第二内膝展力矩峰值减小。低条件导致:(a)早期支撑相垂直地面反作用力减少,中期支撑相增加;(b)膝关节活动度减小;(c)整个支撑相的膝关节内伸力矩增加;(d)膝关节内展力矩峰值减小。
解释
提示垂直地面反作用力冲击峰值增加 5%的体重会导致更具动态性的垂直地面反作用力加载模式、膝关节活动度增加和支撑相内伸力矩增大,这可能有助于恢复膝关节前交叉韧带重建后的步态模式。
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