Schlag J, Schlag-Rey M
J Neurophysiol. 1987 Jan;57(1):179-200. doi: 10.1152/jn.1987.57.1.179.
Electrical microstimulation and unit recording were performed in dorsomedial frontal cortex of four alert monkeys to identify an oculomotor area whose existence had been postulated rostral to the supplementary motor area. Contraversive saccades were evoked from 129 sites by stimulation. Threshold currents were lower than 20 microA in half the tests. Response latencies were usually longer than 50 ms (minimum: 30 ms). Eye movements were occasionally accompanied by blinks, ear, or neck movements. The cortical area yielding these movements was at the superior edge of the frontal lobe just rostral to the region from which limb movements could be elicited. Depending on the site of stimulation, saccades varied between two extremes: from having rather uniform direction and size, to converging toward a goal defined in space. The transition between these extremes was gradual with no evidence that these two types were fundamentally different. From surface to depth of cortex, direction and amplitude of evoked saccades were similar or changed progressively. No clear systematization was found depending on location along rostrocaudal or mediolateral axes of the cortex. The dorsomedial oculomotor area mapped was approximately 7 mm long and 6 mm wide. Combined eye and head movements were elicited from one of ten sites stimulated when the head was unrestrained. In the other nine cases, saccades were not accompanied by head rotation, even when higher currents or longer stimulus trains were applied. Presaccadic unit activity was recorded from 62 cells. Each of these cells had a preferred direction that corresponded to the direction of the movement evoked by local microstimulation. Presaccadic activity occurred with self-initiated as well as visually triggered saccades. It often led self-initiated saccades by more than 300 ms. Recordings made with the head free showed that the firing could not be interpreted as due to attempted head movements. Many dorsomedial cortical neurons responded to photic stimuli, either phasically or tonically. Sustained responses (activation or inhibition) were observed during target fixation. Twenty-one presaccadic units showed tonic changes of activity with fixation. Justification is given for considering the cortical area studied as a supplementary eye field. It shares many common properties with the arcuate frontal eye field. Differences noted in this study include: longer latency of response to electrical stimulation, possibility to evoke saccades converging apparently toward a goal, and long-lead unit activity with spontaneous saccades.
对四只清醒猴子的背内侧额叶皮层进行了电微刺激和单位记录,以确定一个动眼神经区域,该区域的存在已被假定在辅助运动区前方。通过刺激从129个位点诱发了对侧扫视。在一半的测试中,阈值电流低于20微安。反应潜伏期通常长于50毫秒(最短:30毫秒)。眼球运动偶尔会伴有眨眼、耳部或颈部运动。产生这些运动的皮层区域位于额叶的上边缘,恰好在可诱发肢体运动的区域前方。根据刺激部位的不同,扫视在两个极端之间变化:从具有相当一致的方向和大小,到朝着空间中定义好的目标汇聚。这两个极端之间的过渡是渐进的,没有证据表明这两种类型有根本的不同。从皮层表面到深度,诱发扫视的方向和幅度相似或逐渐变化。根据沿皮层前后轴或内外侧轴的位置,未发现明显的系统性规律。绘制的背内侧动眼神经区域大约长7毫米、宽6毫米。当头部不受约束时,在刺激的十个位点之一诱发了眼球和头部的联合运动。在其他九个案例中,即使施加更高的电流或更长的刺激序列,扫视也不伴有头部旋转。从62个细胞记录到了扫视前单位活动。这些细胞中的每一个都有一个偏好方向,与局部微刺激诱发的运动方向相对应。扫视前活动在自发启动以及视觉触发的扫视中都会出现。它通常比自发启动的扫视提前300多毫秒出现。头部自由状态下的记录表明,放电不能被解释为由于试图进行头部运动。许多背内侧皮层神经元对光刺激有相位或紧张性反应。在目标固定期间观察到持续反应(激活或抑制)。21个扫视前单位在固定时有紧张性活动变化。文中给出了将所研究的皮层区域视为辅助眼区的理由。它与弓形额叶眼区有许多共同特性。本研究中指出 的差异包括:对电刺激的反应潜伏期更长、有可能诱发明显朝着一个目标汇聚的扫视,以及自发扫视时的长潜伏期单位活动。
