Department of Rehabilitation, Donders Institute for Brain, Cognition and Behaviour, Radboud University Medical Center, Nijmegen, the Netherlands.
Department of Rehabilitation, Donders Institute for Brain, Cognition and Behaviour, Radboud University Medical Center, Nijmegen, the Netherlands.
Exp Gerontol. 2024 Jun 15;191:112424. doi: 10.1016/j.exger.2024.112424. Epub 2024 Apr 15.
Reactive stepping capacity to recover from a loss of balance declines with aging, which increases the risk of falling. To gain insight into the underlying mechanisms, we investigated whether muscle coordination patterns of reactive stepping differed between healthy young and older individuals.
We performed a cross-sectional study between 15 healthy young and 14 healthy older adults. They recovered from 200 multidirectional platform translations that evoked reactive stepping responses. We determined spatiotemporal step variables and used muscle synergy analysis to characterize stance- and swing-leg muscle coordination patterns from the start of perturbation until foot landing.
We observed delayed step onsets in older individuals, without further spatiotemporal differences. Muscle synergy structure was not different between young and older individuals, but age-related differences were observed in the time-varying synergy activation patterns. In anterior-posterior directions, the older individuals demonstrated significantly enhanced early swing-leg synergy activation consistent with non-stepping behavior. In addition, around step onset they demonstrated increased levels of synergy coactivation (mainly around the ankle) in lateral and anterior directions, which did not appear to hamper foot clearance.
Although synergy structure was not affected by age, the delayed step onsets and the enhanced early synergy recruitment point at a relative bias towards non-stepping behavior in older adults. They may need more time for accumulating information on the direction of perturbation and making the corresponding sensorimotor transformations before initiating the step. Future work may investigate whether perturbation-based training improves these age-related deficits.
反应性跨步能力(即从失去平衡中恢复的能力)随年龄增长而下降,这增加了跌倒的风险。为了深入了解潜在机制,我们研究了健康的年轻人和老年人在反应性跨步中肌肉协调模式是否存在差异。
我们在 15 名健康的年轻人和 14 名健康的老年人之间进行了一项横断面研究。他们从 200 次多方向平台平移中恢复,这些平移诱发了反应性跨步反应。我们确定了时空步变量,并使用肌肉协同分析来描述从扰动开始到脚着地期间支撑腿和摆动腿的肌肉协调模式。
我们观察到老年人的步幅起始延迟,但没有进一步的时空差异。年轻人和老年人的肌肉协同结构没有差异,但在时变协同激活模式中观察到与年龄相关的差异。在前-后方向,老年人表现出明显增强的早期摆动腿协同激活,与非跨步行为一致。此外,在步幅起始时,他们在侧向和前向表现出协同激活水平增加(主要在踝关节周围),这似乎并没有妨碍足廓清。
尽管年龄对协同结构没有影响,但步幅起始延迟和早期协同募集增强表明老年人的非跨步行为相对偏向。他们可能需要更多的时间来积累关于扰动方向的信息,并在开始跨步之前进行相应的感觉运动转换。未来的工作可以研究基于扰动的训练是否可以改善这些与年龄相关的缺陷。
