Transcranial magnetic stimulation over the posterior cerebellum during visually guided saccades in man

doi:10.1093/brain/118.5.1185

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Brain, Vol. 118, No. 5, 1185-1193, 1995
© 1995 Guarantors of Brain

research-article

Transcranial magnetic stimulation over the posterior cerebellum during visually guided saccades in man

M. Hashimoto and K. Ohtsuka

Department of Ophthalmology, School of Medicine, Sapporo Medical University Sapporo, Japan

Correspondence to: Dr Kenji Ohtsuka, Department of Ophthalmology, School of Medicine, Sapporo Medical University, S-1, W-16, Chuo-ku, Sapporo, Hokkaido 060, Japan

Recent intensive neurophysiological experiments in the monkeyhave demonstrated the function of the cerebellum in the controlof saccadic eye movements. Microstimulation studies on monkeyshave determined that the cerebellar cortex, which is specificallyinvolved in the control of saccades, is located in vermal lobulesVIc and VII. The Purkinje-cell axons arising from this vermalarea terminate almost exclusively in an ellipsoidal region whichprotrudes dorsocaudally from the fastigial nucleus. Saccade-relatedcells in the fastigial nucleus are located exclusively in theellipsoidal region. Microstimulation of the vermis modulatedthe activity of saccade-related cells in the fastigial nucleus,and then produced dysmetric saccades. In this study, we investigatedeffects of cerebellar stimulation on saccade metrics in manusing a transcranial magnetic stimulation (TMS) device. FocalTMS was applied over the posterior cerebellum at an area $~$ 7 mmlateral and caudal to the inion during horizontal visually guidedsaccades in six normal subjects. The TMS device was triggeredafter the onset of saccades with a latency of 0, 20, 40 or 60ms. We investigated the effect of TMS on the amplitude and velocityof saccadic eye movements. For visually guided saccades directedcontralateral to the stimulation side, TMS of the posteriorcerebellum with the latency of 0 ms produced hypometric saccadesfollowed by corrective saccades. Transcranial magnetic stimulationwith latencies of 20, 40 and 60 ms had no effect on saccademetrics. On the other hand, for ipsilateral saccades, TMS withlatencies of 0, 20 and 40 ms produced hypermetric saccades followedby postsaccadic drift. Transcranial magnetic stimulation withthe latency of 60 ms had no effect on saccade metrics. The peakvelocity of ipsilateral saccades with TMS was significantlygreater than that of normal saccades with the same amplitude.These findings are consistent with previous neurophysiologicalobservations in the monkey.

saccadic eye movement; dysmetria; cerebellum; vermis; transcranial magnetic stimulation

Received March 6, 1995. Revised May 11, 1995. Accepted May 28, 1995.

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