瑜伽呼吸练习中的自愿低通气对健康受训者气体交换和脑电图活动的影响

A. V. Frolov, J. A. Boytsova, S. Ermolaeva, M. D. Didur
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引用次数: 0

摘要

材料和方法:25 名志愿者(21 名男性和 4 名女性,平均年龄 42.96 ± 9.19 岁)进行了呼吸频率降至 1-1.5 次/分钟的低通气瑜伽练习。在频率为 1-1.5 次/分钟的呼吸过程中和相对自由的呼吸过程中,对呼吸频率、潮气量和每分钟呼吸量进行了记录,对呼出的空气进行了气体分析(PetCO2、FeO2),并在 gICA 模型中对脑电图(EEG)进行了频谱分析:结果:频率为 1-1.5 次/分钟的呼吸会导致分钟呼吸量减少、肺泡缺氧和高碳酸血症的发生,从而导致脑电图慢三角波段、θ 波段和α 波段中某些局部成分的功率增加。此外,频率为 1-1.5 次/分钟的呼吸会导致某些成分的阿尔法和贝塔功率下降,这些成分的来源位于大脑皮层的运动区,但同时也会导致贝塔和伽马波段中具有广泛头皮地形的成分功率增加:结论:瑜伽呼吸练习时的自主低通气会导致肺泡缺氧和高碳酸血症,并伴随着脑电图慢波段局部成分功率的增加。同时,大脑皮层运动区局部成分的阿尔法和贝塔功率下降,这可能是慢速呼吸时肌肉紧张的结果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The effect of voluntary hypoventilation in yoga breathing exercises on gas exchange and EEG activity in healthy trained subjects
Objective: to assess the effect of voluntary hypoventilation during yoga breathing exercises on gas exchange and EEG activity in a group of healthy, trained practitioners.Materials and methods: 25 volunteers (21 men and 4 women, average age 42.96 ± 9.19 years) performed hypoventilation yoga exercises with a decrease in respiratory rate to 1–1.5 times/minute. Registration of respiratory rate, tidal volume and minute volume of breathing, gas analysis of exhaled air (PetCO2, FeO2) and spectral analysis of electroencephalogram (EEG) in gICA model were carried out during breathing with a frequency of 1–1.5 times/minute and during relatively free breathing with mental calculation.Results: Breathing with a frequency of 1–1.5 times/minute causes a decrease in minute volume of breathing, the development of alveolar hypoxia and hypercapnia, which leads to an increase in the power of some local components in the slow delta, theta and alpha EEG bands. In addition, breathing with a frequency of 1–1.5 times/minute is accompanied by a decrease in the alpha- and beta-power of some components, the sources of which are located in the motor areas of the cortex, but is also accompanied by an increase in the power of components with widespread scalp topography in beta and gamma bands.Conclusion: Voluntary hypoventilation during yoga breathing exercises leads to the development of alveolar hypoxia and hypercapnia, accompanied by an increase in the power of local components in the slow EEG bands. At the same time, the alpha and beta powers of components localized in the motor areas of the cortex decrease, which may be a consequence of muscle tension during slow breathing.
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