老年人对五周平衡训练的行为和神经适应反应:一项随机对照试验。

Jan Ruffieux, Audrey Mouthon, Martin Keller, Michael Wälchli, Wolfgang Taube
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引用次数: 14

摘要

背景:虽然平衡训练对年龄相关的姿势稳定性损伤的积极作用已被充分证明,但这种训练适应在老年人中的神经相关性仍然知之甚少。因此,这项研究旨在更多地阐明老年人对平衡训练的神经适应。方法:对65-80岁的老年人进行5周平衡训练(n = 15)或习惯性活动(n = 13)前后的姿势稳定性、脊柱反射和皮质兴奋性进行测量。在单腿和双腿静立在测力板(静态任务)和自由摆动平台(动态任务)时评估姿势稳定性。计算了所有任务的总摆动路径。此外,还计算了单腿任务的错误次数。为了研究脊柱反射兴奋性的变化,我们评估了安静直立时比目鱼肌的h反射。在前后扰动中,通过单脉冲经颅磁刺激调节h反射来评估皮质兴奋性。结果:在单腿站立时的错误次数(静态任务p = 0.050,动态任务p = 0.042)上发现了有利于训练组的显著训练效果,但在任何任务的摇摆参数上都没有发现。相比之下,皮质兴奋性无显著影响(p = 0.703)。结论:与之前的结果一致,平衡性训练后老年人的姿势稳定性得到了改善。然而,这些改善并没有伴随着显著的神经适应。由于几乎相同的对年轻人的研究发现,经过四周的训练后,他们的行为和神经都有了显著的适应,我们假设年龄会影响这种适应的时间过程,以平衡训练和/或从训练任务转移到未训练任务的能力。
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Behavioral and neural adaptations in response to five weeks of balance training in older adults: a randomized controlled trial.

Background: While the positive effect of balance training on age-related impairments in postural stability is well-documented, the neural correlates of such training adaptations in older adults remain poorly understood. This study therefore aimed to shed more light on neural adaptations in response to balance training in older adults.

Methods: Postural stability as well as spinal reflex and cortical excitability was measured in older adults (65-80 years) before and after 5 weeks of balance training (n = 15) or habitual activity (n = 13). Postural stability was assessed during one- and two-legged quiet standing on a force plate (static task) and a free-swinging platform (dynamic task). The total sway path was calculated for all tasks. Additionally, the number of errors was counted for the one-legged tasks. To investigate changes in spinal reflex excitability, the H-reflex was assessed in the soleus muscle during quiet upright stance. Cortical excitability was assessed during an antero-posterior perturbation by conditioning the H-reflex with single-pulse transcranial magnetic stimulation.

Results: A significant training effect in favor of the training group was found for the number of errors conducted during one-legged standing (p = .050 for the static and p = .042 for the dynamic task) but not for the sway parameters in any task. In contrast, no significant effect was found for cortical excitability (p = 0.703). For spinal excitability, an effect of session (p < .001) as well as an interaction of session and group (p = .009) was found; however, these effects were mainly due to a reduced excitability in the control group.

Conclusions: In line with previous results, older adults' postural stability was improved after balance training. However, these improvements were not accompanied by significant neural adaptations. Since almost identical studies in young adults found significant behavioral and neural adaptations after four weeks of training, we assume that age has an influence on the time course of such adaptations to balance training and/or the ability to transfer them from a trained to an untrained task.

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