Werner W, Dannenberg S, Hoffmann K P
Department of Zoology and Neurobiology, Ruhr University of Bochum, Germany.
Exp Brain Res. 1997 Jun;115(2):191-205. doi: 10.1007/pl00005690.
Neuronal activity was recorded from the superior colliculus (SC) and the underlying reticular formation in two monkeys during an arm reaching task. Of 744 neurons recorded, 389 (52%) clearly modulated their activity with arm movements. The temporal activity patterns of arm-movement-related neurons often had a time course similar to rectified electromyograms (EMGs) of particular muscles recorded from the shoulder, arm or trunk. These reach cells, as well as the muscles investigated, commonly exhibited mono- or biphasic (less frequently tri- or polyphasic) excitatory bursts of activity, which were related to the (pre-)movement period, the contact phase and/or the return movement. The vast majority of reach cells exhibited a consistent activity pattern from trial to trial as did most of the muscles of the shoulder, arm and trunk. Similarities between the activity patterns of the neurons and the muscles were sometimes very strong and were especially notable with the muscles of the shoulder girdle (e.g. trapezius descendens, supraspinatus, infraspinatus or the anterior and medial deltoids). This high degree of co-activation suggests a functional linkage, though not direct, between the collicular reach cells and these muscles. Neuronal activity onset was compared with that of 25 muscles of the arms, shoulders and trunk. The majority of cells (78.5%) started before movement onset with a mean lead time of 149+/-90 ms, and 36.5% were active even before the earliest EMG onset. The neurons exhibited the same high degree of correlation (r=0.97, Spearman rank) between activity onset and the beginning of the arm movement as did the muscles (r=0.98) involved in the task. The mean neuronal reach activity (background subtracted) ranged between 7 and 193 impulses/s (mean 40.5+/-24.2). The mean modulation index calculated [(reach activity background activity)/reach activity+background activity)] was 0.75+/-0.23 for neurons (n=358) and 0.87+/-0.14 for muscles (n=25). As the monkeys fixated the reach target constantly during an arm movement, neuronal activity which was modulated in this period was not related to eye movements. The three neck muscles investigated in the reach task exhibited no reach-related activity modulation comparable to that of either the reach cells or the muscles of the shoulder, arm and trunk. However, tonic neck muscle EMG was monotonically related to horizontal eye position. The clear skeletomotor discharge characteristics of arm-movement-related SC neurons revealed in this study agree with those already known from other sensorimotor regions (for example the primary motor, the premotor and parietal cortex, the basal ganglia or the cerebellum) and are consistent with the possible role of this population of reach cells in the control of arm movements.
在两只猴子进行手臂伸展任务期间,记录了上丘(SC)和其下方网状结构的神经元活动。在记录的744个神经元中,389个(52%)的活动明显随手臂运动而调制。与手臂运动相关的神经元的时间活动模式通常具有与从肩部、手臂或躯干记录的特定肌肉的整流肌电图(EMG)相似的时间进程。这些伸展细胞以及所研究的肌肉通常表现出单峰或双峰(较少出现三峰或多峰)兴奋性活动爆发,这些爆发与(预)运动期、接触阶段和/或返回运动有关。绝大多数伸展细胞在每次试验中都表现出一致的活动模式,肩部、手臂和躯干的大多数肌肉也是如此。神经元和肌肉活动模式之间的相似性有时非常强烈,在肩带肌肉(如下降斜方肌、冈上肌、冈下肌或前后三角肌)中尤为明显。这种高度的共同激活表明上丘伸展细胞与这些肌肉之间存在功能联系,尽管不是直接联系。将神经元活动的起始与手臂、肩部和躯干的25块肌肉的活动起始进行了比较。大多数细胞(78.5%)在运动开始前开始活动,平均提前时间为149±90毫秒,36.5%的细胞甚至在最早的EMG起始之前就已经活跃。神经元在活动起始与手臂运动开始之间表现出与参与该任务的肌肉(r = 0.98)相同高度的相关性(r = 0.97,Spearman等级)。平均神经元伸展活动(减去背景)在7至193次脉冲/秒之间(平均40.5±24.2)。计算得到的平均调制指数[(伸展活动 - 背景活动)/(伸展活动 + 背景活动)]对于神经元(n = 358)为0.75±0.23,对于肌肉(n = 25)为0.87±0.14。由于猴子在手臂运动期间持续注视伸展目标,在此期间调制的神经元活动与眼球运动无关。在伸展任务中研究的三块颈部肌肉未表现出与伸展细胞或肩部、手臂和躯干肌肉相当的与伸展相关的活动调制。然而,颈部肌肉的紧张性EMG与水平眼球位置呈单调相关。本研究中揭示的与手臂运动相关的SC神经元明显的骨骼运动放电特征与其他感觉运动区域(例如初级运动区、运动前区和顶叶皮层、基底神经节或小脑)已知的特征一致,并且与这群伸展细胞在控制手臂运动中的可能作用相符。
