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猴子中位于辅助运动区前方的运动区(前辅助运动区):在一项习得性运动任务中的神经元活动。

A motor area rostral to the supplementary motor area (presupplementary motor area) in the monkey: neuronal activity during a learned motor task.

作者信息

Matsuzaka Y, Aizawa H, Tanji J

机构信息

Department of Physiology, Tohoku University School of Medicine, Sendai, Japan.

出版信息

J Neurophysiol. 1992 Sep;68(3):653-62. doi: 10.1152/jn.1992.68.3.653.

DOI:10.1152/jn.1992.68.3.653
PMID:1432040
Abstract
  1. The rostromesial agranular frontal cortex of macaque monkey (Macaca fuscata), traditionally defined as the supplementary motor area (SMA), was studied using various physiological techniques to delineate two different areas rostrocaudally. 2. Field and unitary responses to electrical stimulation of the primary motor cortex were distinct in the caudal part, but minimal or absent in the rostral part. Intracortical microstimulation readily evoked limb or orofacial movements in the caudal part, but only infrequently in the rostral part. Neuronal responses to visual stimuli prevailed in the rostral part, but somatosensory responses were rare. The opposite was true in the caudal part. 3. The rostral part, roughly corresponding to area 6a beta, was operationally defined as the presupplementary motor area (pre-SMA). The caudal part was redefined as the SMA proper. 4. Single-cell activity in the pre-SMA was quantitatively compared with that in the SMA proper in relation to a trained motor task. 5. Phasic responses to visual cue signals indicating the direction of forthcoming arm-reaching movement were more abundant in the pre-SMA. 6. Activity changes during the preparatory period, which lasted until the occurrence of the trigger signal for the reaching movement, were more frequent in the pre-SMA. 7. Phasic, movement-related activity was more frequent in the SMA, and its onset was often time locked to the movement onset. In the pre-SMA, the occurrences of response time locked to the movement-trigger signal were more frequent than in the SMA. 8. Among neurons in both areas, directional selectivity was found in all the cue, preparatory, and movement-related responses.
摘要
  1. 采用多种生理学技术对猕猴(日本猕猴)传统上定义为辅助运动区(SMA)的吻内侧无颗粒额叶皮质进行研究,以在前后方向上 delineate 两个不同区域。2. 对初级运动皮质进行电刺激时,尾侧部分的场反应和单位反应明显不同,但吻侧部分的反应极小或不存在。皮质内微刺激在尾侧部分很容易诱发肢体或口面部运动,但在吻侧部分很少见。吻侧部分神经元对视觉刺激的反应占主导,但躯体感觉反应很少见。尾侧部分情况相反。3. 吻侧部分大致对应于6aβ区,在操作上被定义为前辅助运动区(pre - SMA)。尾侧部分被重新定义为真正的SMA。4. 将前辅助运动区的单细胞活动与真正的辅助运动区的单细胞活动在一项训练过的运动任务方面进行定量比较。5. 前辅助运动区对指示即将到来的手臂伸展运动方向的视觉提示信号的相位反应更为丰富。6. 在前辅助运动区,准备期(持续到伸展运动触发信号出现)期间的活动变化更为频繁。7. 与运动相关的相位活动在辅助运动区更为频繁,其起始通常与运动起始时间锁定。在前辅助运动区,与运动触发信号时间锁定的反应出现频率比辅助运动区更高。8. 在这两个区域的神经元中,在所有提示、准备和与运动相关的反应中都发现了方向选择性。

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