College of Physical Education and Sports, Beijing Normal University, Beijing, China.
College of Physical Education and Sports, Beijing Normal University, Beijing, China.
Gait Posture. 2024 Jan;107:114-120. doi: 10.1016/j.gaitpost.2023.03.010. Epub 2023 Mar 17.
Cutting is a quick change of direction that challenges body balance and stability. As the cut-angle increases, the elite athlete can achieve higher performance by pre-adjusting the posture of the lower limb joints. However, it is unclear how the cut-angle affects the neuromuscular control of cutting and the step before cutting, which is essential for daily training and preventing injury in large-angle cutting.
The purpose of this study was to determine how neuromuscular control strategies change under different angles for cutting and the step before cutting METHODS: Non-negative matrix factorisation and K-means clustering were used to extract muscle synergy in the trunk and lower limbs of 12 athletes when cutting at different angles. Uncontrolled manifold analysis was used to clarify whether the muscle synergy fluctuations in the step before cutting were beneficial in stabilising the COP during the cutting.
This study found that the angle did not affect the number of muscle synergies either in the cutting or the step before the cutting. As the angle increases, the activation timing of synergy module 2 during cutting moves forward and is tightly integrated with module 1. The combined synergy at 90° accounted for the largest proportion of either cutting or the step before cutting and had a lower synergy index.
Muscle synergy can respond to large-angle cutting through flexible combinations. The muscle synergy for 90° cutting is less regular and has a lower degree of anticipatory synergy adjustments, which may result in poorer postural stability and an increased risk of lower limb joint injury during cutting.
变向是一种快速改变运动方向的动作,对身体平衡和稳定性具有挑战。随着变向角度的增加,优秀运动员可以通过预先调整下肢关节的姿势来获得更高的表现。然而,变向角度如何影响切割和切割前的步伐的神经肌肉控制,对于日常训练和防止大角度切割中的下肢关节损伤至关重要,目前还不清楚。
本研究的目的是确定在不同角度下切割和切割前的步伐中神经肌肉控制策略如何变化。
使用非负矩阵分解和 K-均值聚类来提取 12 名运动员在不同角度下切割时躯干和下肢的肌肉协同作用。使用非受控制流形分析来阐明切割前步伐中肌肉协同作用的波动是否有助于在切割过程中稳定 COP。
本研究发现,角度既不会影响切割时也不会影响切割前步伐的肌肉协同作用数量。随着角度的增加,协同作用模块 2 在切割时的激活时间向前移动,并与模块 1 紧密结合。90°时的组合协同作用占切割或切割前步伐的最大比例,且协同作用指数较低。
肌肉协同作用可以通过灵活的组合来应对大角度切割。90°切割的肌肉协同作用不那么规则,并且预先调整协同作用的程度较低,这可能导致切割过程中姿势稳定性较差,下肢关节受伤的风险增加。
