Riccardo Borzuola, Valerio Caricati, Martina Parrella, Martina Scalia, Andrea Macaluso
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引用次数: 0
摘要
事实证明,在自主收缩时叠加神经肌肉电刺激(NMES)对提高肌肉力量和性能非常有效。这些改善可能涉及大脑皮层和脊髓水平发生的特定适应。NMES 对皮质脊髓激活的影响似乎与频率有关,并且在上肢和下肢肌肉之间存在差异。本研究的目的是研究在两种不同脉冲频率(40 赫兹和 80 赫兹)的 NMES 与自主收缩(NMES + ISO)叠加后,脊髓兴奋性的急性反应。条件包括 15 次次最大水平的间歇性收缩。在每个条件之前和之后,都会在 FCR 和 SOL 肌肉中激发 H 反射。在 40 赫兹和 80 赫兹的 NMES + ISO 运动后,FCR 和 SOL 肌肉的 H 反射幅度均有所增加。与 80 Hz 条件相比,40 Hz 条件下 H 反射的增效作用更大,但不同肌肉之间并无差异。这些研究结果表明,叠加 NMES 对上肢和下肢肌肉的脊髓运动神经元均有兴奋作用,低频 NMES 后的总体反应更大。这种促进作用可能与增强的躯体感觉刺激和更高的脊髓上向下指令有关。
Frequency-dependent effects of superimposed NMES on spinal excitability in upper and lower limb muscles.
Superimposing neuromuscular electrical stimulation (NMES) on voluntary contractions has proven to be highly effective for improving muscle strength and performance. These improvements might involve specific adaptations occurring at cortical and spinal level. The effects of NMES on corticospinal activation seem to be frequency dependent and differ between upper and lower limb muscles. The aim of this study was to investigate acute responses in spinal excitability, as measured by H-reflex amplitude of flexor carpi radialis (FCR) and soleus (SOL) muscles, after NMES superimposed on voluntary contractions (NMES + ISO) at two different pulse frequencies (40 and 80 Hz). Conditions involved fifteen intermittent contractions at submaximal level. Before and after each condition, H-reflexes were elicited in FCR and SOL muscles. H-reflex amplitudes increased in FCR and SOL following both NMES + ISO at 40 and 80 Hz. The potentiation of the H-reflex was greater following the 40 Hz condition compared to 80 Hz, although no differences between muscles emerged. These findings indicated that superimposing NMES has an excitatory effect on spinal motoneurons in both upper and lower limb muscles with an overall greater response after low frequency NMES. Such facilitation could be associated to enhanced somatosensory stimuli conjunctly with higher supraspinal downward commands.
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