探索老年人步态功能中踝关节扭矩波动和肌内协调性的作用。
Exploring the role of ankle torque fluctuations and intramuscular coherence in gait function among older adults.
作者信息
Yaguchi-Horiuchi Akira, Tsuji Toshiaki, Takeuchi Hiroki, Yokokawa Yoshiharu, Yamanaka Eiji, Nojima Ippei
机构信息
Department of Physical Therapy, School of Health Science, Shinshu University, Matsumoto, Japan.
Graduate School of Science and Engineering, Saitama University, Saitama, Japan.
出版信息
Aging Clin Exp Res. 2025 Sep 6;37(1):276. doi: 10.1007/s40520-025-03188-0.
OBJECTIVE
This study aimed to investigate the relationship between ankle joint function and walking performance in older adults by assessing qualitative ankle functions through torque fluctuation analysis and tibialis anterior (TA) intramuscular coherence during isometric dorsiflexion.
METHODS
Thirty-eight community-dwelling older adults participated in this study. Ankle torque fluctuations and intramuscular coherence were evaluated during a dorsiflexion task at 30% of maximum voluntary torque (MVT). Walking performance was assessed using the 5-meter walk test and the Timed Up and Go (TUG) test. Torque fluctuation indicators, including the coefficient of variation (CV), frequency components, and the primary component calculated by an autoregressive (AR) model, were derived from time-series data. Intramuscular coherence was analyzed in the δ (0-5 Hz) and β (16-35 Hz) frequency bands. Multiple regression analyses adjusted for age were conducted to explore associations between walking performance, torque indicators, and intramuscular coherence.
RESULTS
The TUG test demonstrated a significant relationship with the AR principal component of torque fluctuations, independent of age (p = 0.031), suggesting that temporal variability in ankle torque contributes to dynamic balance. While no significant relationship was observed between gait function and intramuscular coherence, δ-band coherence showed significant correlations with torque variability (CV, r = 0.598, p < 0.001) and spectral power in both the 0.5-5 Hz (r = 0.62, p < 0.001) and 5-10 Hz (r = 0.544, p = 0.001) bands.
DISCUSSION
The AR principal component appears to capture kinematic features to motor control and dynamic balance, as evidenced by its association with TUG performance. Furthermore, the relationship between δ-band coherence and torque fluctuations highlights its potential as a maker of neuromuscular function. Although torque fluctuation characteristics and δ-band coherence did not directly correlate with walking speed, they offer valuable insights into the neurophysiological mechanisms underpinning motor control.
CONCLUSION
This study demonstrated that temporal variability in ankle torque, as quantified by the AR principal component, contributes to walking ability and dynamic balance in older adults.
目的
本研究旨在通过在等长背屈过程中通过扭矩波动分析和胫前肌(TA)肌内相干性评估定性踝关节功能,来调查老年人踝关节功能与步行表现之间的关系。
方法
38名居住在社区的老年人参与了本研究。在最大自主扭矩(MVT)的30%进行背屈任务期间,评估踝关节扭矩波动和肌内相干性。使用5米步行测试和计时起立行走(TUG)测试评估步行表现。扭矩波动指标,包括变异系数(CV)、频率成分以及通过自回归(AR)模型计算的主成分,均从时间序列数据中得出。在δ(0 - 5Hz)和β(16 - 35Hz)频段分析肌内相干性。进行了调整年龄的多元回归分析,以探讨步行表现、扭矩指标和肌内相干性之间的关联。
结果
TUG测试表明与扭矩波动的AR主成分存在显著关系,且不受年龄影响(p = 0.031),这表明踝关节扭矩的时间变异性有助于动态平衡。虽然在步态功能和肌内相干性之间未观察到显著关系,但δ频段相干性与扭矩变异性(CV,r = 0.598,p < 0.001)以及0.5 - 5Hz(r = 0.62,p < 0.001)和5 - 10Hz(r = 0.544,p = 0.001)频段的频谱功率均显示出显著相关性。
讨论
AR主成分似乎捕捉到了运动控制和动态平衡的运动学特征,这一点从它与TUG表现的关联中得到证明。此外,δ频段相干性与扭矩波动之间的关系突出了其作为神经肌肉功能指标的潜力。尽管扭矩波动特征和δ频段相干性与步行速度没有直接关联,但它们为支撑运动控制的神经生理机制提供了有价值的见解。
结论
本研究表明,通过AR主成分量化的踝关节扭矩时间变异性有助于老年人的步行能力和动态平衡。
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