THE ROLE OF REFLEXES IN THE RESTING TREMOR OF PARKINSON'S DISEASE

doi:10.1093/brain/109.1.115

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Brain, Vol. 109, No. 1, 115-141, 1986
© 1986 Oxford University Press

research-article

THE ROLE OF REFLEXES IN THE RESTING TREMOR OF PARKINSON'S DISEASE

P. M. H. RACK and H. F. ROSS

Department of Physiology, University of Birmingham Birmingham B15 2TJ

Correspondence to: Correspondence to: Professor P. M. H. Rack, Department of Physiology, The Medical School, Birmingham B15 2TJ.

Forces and electromyograms were recorded from patients withParkinson's disease during imposed joint movements. Muscleswhich were stretched by 3 to 5 Hz sinusoidally alternating movementsoften showed vigorous bursts of EMG activity whose timing establishedthat it was a reflex response to the movement. The same movementsprovoke no stretch reflex response from normal subjects.

When resting tremor was present the driven movements sometimesentrained it, and the bursts of EMG activity then became lockedto the imposed movement. On other occasions the tremor activitycontinued at its own rate; EMG bursts then occurred at timesunrelated to the movement, and the irregular force records reflecteda conflict between the movement and the muscle activity. Tremorwas most consistently entrained when a large mass of musclewas driven through a large movement at a frequency that wasclose to the usual tremor frequency Tremor which involved synchronouscontractions of muscles at different joints was often resistantto the effects of our imposed movements, but it could sometimesalso be entrained by large movements of a single joint.

When tremor was entrained by a driving movement, the EMG dischargewas indistinguishable from a reflex response, and the limb exertedforces on the machinery which had the timing and magnitude thatwould be expected of a reflex response. Spontaneous tremor inthe same subjects had frequencies which altered in the predictedway with changes of mechanical load.

We conclude that peripheral reflexes are more important in parkinsoniantremor than has often been supposed, although afferent activityfrom the moving limb probably interacts with other potentiallyoscillatory mechanisms.

Received January 29, 1985. Revised May 3, 1985. Accepted May 21, 1985.

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