Erbil Nurhan, Ungan Pekcan
Hacettepe University, Faculty of Medicine, Department of Biophysics, Ankara, Turkey.
Brain Res. 2007 Sep 12;1169:44-56. doi: 10.1016/j.brainres.2007.07.014. Epub 2007 Jul 17.
Electroencephalographic alpha and beta activities recorded from central electrodes are known to display movement-related suppression or enhancement. We investigated whether the suppression that is known to occur during the onset of a single movement would persist or otherwise habituate when the movement is continuously repeated for a long period of time. Fourteen subjects took part in the experiments. They performed repetitive simultaneous extension-flexions of the fingers II-V in one hand, continuously for a period of at least 30 s. They then stopped this self-paced movement and rested for at least 30 s. Bipolar recording was made from C3-Cz and C4-Cz. Patterns of amplitude changes in the alpha and beta bands were calculated against a resting baseline. Following a bilateral alpha and beta suppression at the movement onset, alpha amplitude gradually but not fully recovered towards the baseline during the 30 s post-onset. Habituation of afferences and transfer of the cortical function were discussed as the two alternative explanations for this gradual recovery. Beta amplitude, however, displayed no recovery as long as the movement continued. Considering the relatively rapid beta recovery reported for sustained movements, this finding demonstrated that the sustained and continuous movements are conducted through quite different processes. A transient contralateral beta rebound was observed only after the end of the long movement period, strengthening the viewpoint that links the beta rebound with the closure of the cortical processes running throughout a motor sequence. Modulation of the beta amplitude, rather than the changes in alpha amplitude, appeared to be more closely correlated with the execution of a continuous movement.
已知从中央电极记录的脑电图α波和β波活动会表现出与运动相关的抑制或增强。我们研究了在单次运动开始时已知会出现的抑制,当运动长时间持续重复时是否会持续存在或以其他方式产生习惯化。14名受试者参与了实验。他们用一只手连续进行至少30秒的手指II - V的重复性同步屈伸动作。然后他们停止这种自定节奏的运动并休息至少30秒。从Cz - C3和Cz - C4进行双极记录。计算α波和β波频段的振幅变化模式相对于静息基线的值。在运动开始时出现双侧α波和β波抑制后,α波振幅在运动开始后的30秒内逐渐但未完全恢复到基线水平。传入信息的习惯化和皮质功能的转移被作为这种逐渐恢复的两种替代解释进行了讨论。然而,只要运动持续,β波振幅就没有恢复。考虑到持续运动时β波恢复相对较快的报道,这一发现表明持续和连续运动是通过截然不同的过程进行的。仅在长时间运动期结束后观察到短暂的对侧β波反弹,强化了将β波反弹与贯穿整个运动序列的皮质过程的结束联系起来的观点。β波振幅的调制,而不是α波振幅的变化,似乎与连续运动的执行更密切相关。