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Resetting of Orthostatic Tremor Associated With Cerebellar Cortical Atrophy by Transcranial Magnetic Stimulation
Mario-Ubaldo Manto, MD;
Fabrizia Setta, MD;
Benjamin Legros, MD;
Jean Jacquy, MD;
Emile Godaux, MD
Arch Neurol. 1999;56:1497-1500.
Objectives To investigate the resetting effects of transcranial magnetic stimulation over motor cortex on orthostatic tremor, characterized by high-frequency electromyographic discharges in weight-bearing muscles, particularly orthostatic tremor (OT) associated with cerebellar cortical atrophy; and to compare our results with those obtained in primary OT, for which transcranial magnetic stimulation does not reset tremor.
Design Study of 3 patients who clinically exhibited a sporadic pancerebellar syndrome associated with isolated cerebellar atrophy and features of OT.
Setting Research hospital.
Main Outcome Measures Electromyograms and transcranial magnetic stimulation studies with a resetting index calculated on the basis of the timing of measured bursts and predicted bursts for a magnetic stimulus given at increasing delays.
Results Surface electromyographic recordings in weight-bearing muscles showed tremor with a frequency of 14, 15, and 14 Hz in the 3 patients. Transcranial magnetic stimulus was able to reset OT. Resetting index was 0.72.
Conclusions Transcranial magnetic stimulus resets OT associated with cerebellar cortical atrophy, emphasizing the role of motor cortex in the genesis of OT associated with a cerebellar dysfunction. Our results argue in favor of a distinct pathophysiological mechanism of primary OT and OT associated with cerebellar cortical atrophy.
From the Department of Neurology, Hôpital Erasme (Drs Manto and Legros), and Belgian National Research Foundation (Dr Manto), Brussels, Belgium; Clinica Neurologica II, Universita La Sapienza, Rome, Italy (Dr Setta); Department of Neurology, Centre Hospitalier Universitaire–Charleroi, Charleroi, Belgium (Dr Jacquy); and Department of Neurosciences, University of Mons, Mons, Belgium (Dr Godaux).
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