自行车运动后过度换气时腿部肌肉的活动。

P David, I Mora, J Terrien, T Lelard, M Petitjean
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引用次数: 0

摘要

本研究的目的是确定增加通气如何改变姿势稳定性,以身体摆动和腿部肌肉活动为特征。12名健康受试者必须进行6次30秒的姿势测试:一次是在运动前轻柔呼吸时进行的测试,然后在最大强度的增量自行车运动测试后的5分钟内每分钟进行一次测试。受试者被要求在测力板上保持直立姿势30秒,眼睛睁着。在时间域和谱域监测矢状面压力中心的运动。用表面肌电图记录比目鱼肌和胫前肌的肌电活动。使用便携式遥测装置测量通气参数。通过相干性分析对与呼吸变化相关的体位变化进行量化。结果显示,运动引起的过度换气伴随着姿势参数的显著增加,表明在换气驱动改变后姿势稳定性降低。相干分析证实了体位振荡的通气起源。结果表明,通气可能是运动时体位障碍的一个重要因素。观察到的腿部肌肉活动的增加很可能与肌肉-关节僵硬有关。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Leg muscles activities during hyperventilation following a cycling exercise.

The goal of this study was to establish how increased ventilation modifies postural stability, as characterized by body sway and leg muscle activities. Twelve healthy subjects had to perform six 30-second postural tests: one pre-exercise test while breathing gently and then one test every minute for the five minutes immediately following a maximum-intensity, incremental cycling exercise test. Subjects were asked to maintain an upright stance on a force plate for 30 s, with their eyes open. Movement of the centre of pressure in the sagittal plane was monitored in the time and spectral domains. Myoelectric activities of the soleus and tibialis anterior muscles were recorded using surface electromyography. Ventilatory parameters were measured with a portable, telemetric device. Postural changes related to respiratory variations were quantified by coherence analysis. The results showed that hyperventilation induced by exercise was accompanied by a significant increase in postural parameters, indicating a reduction in postural stability following a change in ventilatory drive. Coherence analysis confirmed the ventilatory origin of the postural oscillations. The results suggest that ventilation may be an important factor in postural disturbance during physical activity. The observed increases in leg muscle activities were most likely related to musculo-articular stiffening.

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