Onishi Hideaki, Soma Toshio, Kameyama Shigeki, Oishi Makoto, Fuijmoto Ayataka, Oyama Mineo, Furusawa Adriane A, Kurokawa Yukio
Niigata University of Health and Welfare, Japan.
Brain Res. 2006 Dec 6;1123(1):112-8. doi: 10.1016/j.brainres.2006.09.033. Epub 2006 Oct 12.
We examined the amplitude and latency of movement-related cerebral field (MRCF) waveforms, the generator and afferent feedback of movement-evoked field 1 (MEF1), and the relationship between motor field neuromagnetic activity and electromyographic activity during performance of two types of voluntary index extension. Eight healthy, right-handed male volunteers participated in this study. Experiments for each subject consisted of recording of MRCFs following two types of finger movement. One (Task 1) involved voluntary extension of the right index finger to about 40 degrees . In the second (Task 2), an elastic band was placed on the right index fingertip, producing a resistance of about 1.5 times the electromyographic activity associated with the voluntary movement yielding extension to approximately 40 degrees . Peak amplitude and the ECD moment of the motor field differed significantly between the two tasks. In Task 2, the electromechanical delay from EMG onset to movement onset (77.8+/-16.2) was longer than in Task 1 (44.4+/-10.4). However, the latency from EMG onset to MEF1 peak was 87.6+/-8.5 ms in Task 2, and did not differ significantly from that in Task 1 (88.6+/-8.5). The ECDs of MEF1 were located significantly medial to N20 m and lateral and posterior to the motor field. These findings suggest that the ECD of MEF1 is located in area 3b, but is slightly different from N20 m, and that this MEF1 component activation is due not to the onset of joint movement but to that of muscular contraction.
我们研究了与运动相关的脑电场(MRCF)波形的幅度和潜伏期、运动诱发电场1(MEF1)的发生器和传入反馈,以及在两种类型的自愿性食指伸展运动过程中运动场神经磁活动与肌电图活动之间的关系。八名健康的右利手男性志愿者参与了本研究。每个受试者的实验包括记录两种类型手指运动后的MRCF。一种(任务1)是将右手食指自愿伸展至约40度。在第二种(任务2)中,在右手食指指尖放置一条橡皮筋,产生的阻力约为与自愿运动相关的肌电图活动的1.5倍,从而使食指伸展至约40度。两个任务之间运动场的峰值幅度和等效电流偶极矩存在显著差异。在任务2中,从肌电图开始到运动开始的机电延迟(77.8±16.2)比任务1(44.4±10.4)更长。然而,在任务2中从肌电图开始到MEF1峰值的潜伏期为87.6±8.5毫秒,与任务1(88.6±8.5)无显著差异。MEF1的等效电流偶极位于N20m显著内侧、运动场外侧和后方。这些发现表明,MEF1的等效电流偶极位于3b区,但与N20m略有不同,并且该MEF1成分的激活不是由于关节运动的开始,而是由于肌肉收缩的开始。
