Age-Related Topological Organization of Phase-Amplitude Coupling Between Postural Fluctuations and Scalp EEG During Unsteady Stance

IF 4.8 2区 医学 Q2 ENGINEERING, BIOMEDICAL
Yi-Ching Chen;Yi-Ying Tsai;Wei-Min Huang;Chen-Guang Zhao;Ing-Shiou Hwang
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Abstract

Through phase-amplitude analysis, this study investigated how low-frequency postural fluctuations interact with high-frequency scalp electroencephalography (EEG) amplitudes, shedding light on age-related mechanic differences in balance control during uneven surface navigation. Twenty young ( $24.1~\pm ~1.9$ years) and twenty older adults ( $66.2~\pm ~2.7$ years) stood on a training stabilometer with visual guidance, while their scalp EEG and stabilometer plate movements were monitored. In addition to analyzing the dynamics of the postural fluctuation phase, phase-amplitude coupling (PAC) for postural fluctuations below 2 Hz and within EEG sub-bands (theta: 4-7 Hz, alpha: 8-12 Hz, beta: 13-35 Hz) was calculated. The results indicated that older adults exhibited significantly larger postural fluctuation amplitudes(p <0.001)> ${p} =0.005$ ) than young adults. The PAC between postural fluctuation and theta EEG (FCz and bilateral temporal-parietal-occipital area), as well as that between postural fluctuation and alpha EEG oscillation, was lower in older adults than in young adults (p <0.05).> ${p}=0.006$ ), was higher in older adults than in young adults. In summary, the postural fluctuation phase and phase-amplitude coupling between postural fluctuation and EEG are sensitive indicators of the age-related decline in postural adjustments, reflecting less flexible motor state transitions and adaptive changes in error monitoring and visuospatial attention.
不稳定姿态期间姿势波动与头皮脑电图之间相位-振幅耦合的拓扑组织与年龄有关。
本研究通过相位-振幅分析,研究了低频姿势波动如何与高频头皮脑电图(EEG)振幅相互作用,从而揭示了在不平坦表面导航过程中与年龄有关的平衡控制力学差异。二十名年轻人(24.1 ± 1.9 岁)和二十名老年人(66.2 ± 2.7 岁)在视觉引导下站在训练稳定器上,同时监测他们的头皮脑电图和稳定器板的运动。除了分析姿势波动阶段的动态变化外,还计算了 2 赫兹以下和脑电图子波段(θ:4-7 赫兹,α:8-12 赫兹,β:13-35 赫兹)内姿势波动的相位-振幅耦合(PAC)。结果表明,老年人的姿势波动幅度明显更大(p
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来源期刊
CiteScore
8.60
自引率
8.20%
发文量
479
审稿时长
6-12 weeks
期刊介绍: Rehabilitative and neural aspects of biomedical engineering, including functional electrical stimulation, acoustic dynamics, human performance measurement and analysis, nerve stimulation, electromyography, motor control and stimulation; and hardware and software applications for rehabilitation engineering and assistive devices.
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