Coherence between cerebellar thalamus, cortex and muscle in man: Cerebellar thalamus interactions

doi:10.1093/brain/123.7.1459

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Brain, Vol. 123, No. 7, 1459-1470, July 2000
© 2000 Oxford University Press

Coherence between cerebellar thalamus, cortex and muscle in man

Cerebellar thalamus interactions

J. F. Marsden¹, P. Ashby³, P. Limousin-Dowsey¹, J. C. Rothwell¹ and P. Brown¹^,2

¹ MRC Human Movement and Balance Unit, Institute of Neurology, London, ² National Hospital for Neurology and Neurosurgery, London, UK and ³ Playfair Neuroscience Unit, Toronto Western Hospital, Canada

Correspondence to: Dr P. Brown, MRC Human Movement and Balance Unit, Institute of Neurology, Queen Square, London WCIN 3BG, UK

Local field potentials (LFPs) were recorded in seven unanaesthetizedpatients between the four adjacent contacts of a macroelectrodestereotactically implanted for the treatment of tremor. TheLFPs were presumed to arise predominantly from the nucleus ventralisintermedius (Vim) of the thalamus, the implantation target.They were recorded simultaneously with the ipsilateral EEG andcontralateral EMG during an isometric contraction or at rest.The patients had a history of either isolated tremor (essentialtremor, n = 2; benign tremulous Parkinson's disease, n = 1)or tremor with signs of a cerebellar syndrome (multiple sclerosis,n = 3; essential tremor and ataxia, n = 1), although clinicaltremor was absent at the time of recording because of a temporarymicrothalamotomy effect in four patients. In patients with isolatedtremor, oscillatory activity picked up by contacts in Vim (cerebellarthalamus) was invariably coherent with that in the sensorimotorcortex or contracting muscle in the 8–27 Hz range. Suchcoherence was absent in two of the four subjects with tremorassociated with a cerebellar syndrome. Coherence between LFPsrecorded from more caudally placed contacts and the sensorimotorcortex or contracting muscle was negligible in all patients.These caudally placed contacts demonstrated the highest sensoryevoked potential in response to median nerve stimulation. Oscillatoryactivity in the cerebellar thalamus (Vim) lagged behind thatin both cortex and muscle. Coherent activity between the cerebellarthalamus (Vim) and the cortex persisted at rest. It is suggestedthat rhythmicities in the 8–27 Hz range could providethe basis for a temporal framework that is widely distributedwithin the motor system.

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