衰老对与感觉和运动感觉功能相关的 EEG 脑振荡的影响。

The effect of aging on EEG brain oscillations related to sensory and sensorimotor functions.

机构信息

Institute of Neurobiology, Bulgarian Academy of Sciences, Sofia, Bulgaria.

出版信息

Adv Med Sci. 2014 Mar;59(1):61-7. doi: 10.1016/j.advms.2013.08.002. Epub 2014 Mar 19.

DOI:10.1016/j.advms.2013.08.002

PMID:24797977

Abstract

PURPOSE

The question of the present study is whether the brain as a system with gradually decreasing resources maximizes its performance by reorganizing neural networks for greater efficiency.

MATERIAL/METHODS: Auditory event-related low frequency oscillations (delta δ - [2, 4]Hz; theta θ - [4.5, 7]Hz; alpha α - [7.5, 12]Hz) were examined during an auditory discrimination motor task (low-frequency tone - right hand movement, high-frequency tone - left hand movement) between two groups with mean age 26.3 and 55 years.

RESULTS

The amplitudes of the phase-locked δ, θ and α activity were more pronounced with a progressive increase in age during the sensory processing, independent of tone type. The difference between the groups with respect to scalp distribution was tone-independent for delta/theta oscillations, but not for the alpha activity. Age-related and tone-dependent changes in α band activity were focused at frontal and sensorimotor areas. Neither functional brain specificity was observed for the amplitudes of the low-frequency (δ, θ, α) oscillations during the cognitive processing, which diminished with increasing age.

CONCLUSION

The cognitive brain oscillatory specificity diminished with increasing age.

摘要

目的

本研究的问题是，作为一个资源逐渐减少的系统，大脑是否通过重新组织神经网络来提高效率，从而最大限度地提高其性能。

材料/方法：在一项听觉辨别运动任务（低频音-右手运动，高频音-左手运动）中，我们检查了两组被试者（平均年龄分别为 26.3 岁和 55 岁）的听觉事件相关低频振荡（δ [2,4]Hz；θ [4.5,7]Hz；α [7.5,12]Hz）。

结果

在感觉处理过程中，与音调类型无关，随着年龄的增长，锁相 δ、θ 和 α 活动的振幅逐渐增大。两组之间在头皮分布上的差异与 delta/theta 振荡无关，但与 alpha 活动无关。与年龄相关和与音调相关的 alpha 波段活动的变化主要集中在前额和感觉运动区域。在认知处理过程中，低频（δ、θ、α）振荡的幅度也没有观察到与功能脑的特异性，并且随着年龄的增长而减小。

结论

随着年龄的增长，认知脑的振荡特异性降低。

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衰老对与感觉和运动感觉功能相关的 EEG 脑振荡的影响。

The effect of aging on EEG brain oscillations related to sensory and sensorimotor functions.

机构信息

出版信息

PURPOSE

RESULTS

CONCLUSION

目的

结果

结论

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