School of Comprehensive Rehabilitation, Osaka Prefecture University, Habikino 3-7-30, Habikino City, Osaka 583-8555, Japan.
Cerebellum. 2010 Sep;9(3):454-60. doi: 10.1007/s12311-010-0187-4.
Previous studies showed that transcranial magnetic stimulation (TMS) to the cerebellum evokes a long latency motor response in the soleus muscle during a postural task. The cerebellum is activated not only during postural tasks but also during motor tasks for which eye-hand coordination is required. The purpose of this study was to investigate whether TMS over the cerebellum evokes long latency motor responses in the hand during a visually guided manual tracking task. Eight healthy humans tracked an oscillatory moving target with the right index finger or pointed the finger at a stationary target, and TMS was delivered to the scalp over the cerebellum during the motor tasks. Trials with sham TMS were inserted between the trials with cerebellar TMS. The trajectory of finger movement fluctuated 92 ms after cerebellar TMS with a 24% probability during tracking of a moving target. The fluctuation was preceded by an electromyographic burst in the first dorsal interosseous muscle starting at 65 ms after TMS. The probability of fluctuation evoked by cerebellar TMS was significantly larger than that evoked by sham TMS during tracking of a moving target. This significant difference was absent in trials during which subjects pointed their index finger at a stationary target. These findings indicate that cerebellar TMS evokes a long latency motor response during a visually guided manual tracking task. The long latency motor response may be related to cerebellar activity associated with eye-hand coordination or to the detection of and correction for visuomotor errors.
先前的研究表明,在姿势任务中,经颅磁刺激(TMS)小脑会在比目鱼肌中引起潜伏期较长的运动反应。小脑不仅在姿势任务中被激活,而且在需要眼手协调的运动任务中也被激活。本研究的目的是探讨在视觉引导的手动跟踪任务中,TMS 是否会在手上引起潜伏期较长的运动反应。8 名健康人用右食指跟踪摆动的移动目标或指向静止的目标,在运动任务期间,TMS 被传递到小脑头皮上。在小脑 TMS 试验之间插入了 sham TMS 试验。在跟踪移动目标时,小脑 TMS 后 92ms 手指运动轨迹的波动概率为 24%。在 TMS 后 65ms 开始,第一背间骨间肌出现肌电爆发,先于波动。小脑 TMS 诱发的波动概率明显大于移动目标跟踪时 sham TMS 诱发的波动概率。在受试者指向静止目标的试验中,没有这种显著差异。这些发现表明,小脑 TMS 在视觉引导的手动跟踪任务中会引起潜伏期较长的运动反应。这种潜伏期较长的运动反应可能与与眼手协调相关的小脑活动或视觉运动误差的检测和校正有关。
