Physiological and pathological tremors and rhythmic central motor control

doi:10.1093/brain/123.8.1545

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Brain, Vol. 123, No. 8, 1545-1567, August 2000
© 2000 Oxford University Press

Review article

Physiological and pathological tremors and rhythmic central motor control

J. H. McAuley and C. D. Marsden

Human Movement and Balance Unit, Institute of Neurology, London, UK

Correspondence to: J. H. McAuley, HMBU, Institute of Neurology, 23 Queen Square, London WC1N 3BG, UK E-mail: jhmcauley{at}clara.co.uk

In recent years there has been increasing interest in oscillatoryneural activity in the CNS and in the role that such activitymay have in motor control. It is thought that physiologicaltremor may be a manifestation in the periphery of such centraloscillatory activity and that some pathological tremors arethe result of derangement of these oscillators. This reviewre-evaluates both early and recent studies on physiologicaland pathological tremors and other peripheral oscillations inorder to gain a new perspective on the nature and function oftheir central progenitors. This approach, namely using tremoras a `window' into the function of central oscillations, isparticularly suited to human investigations because of the obviouslimitations of direct central recording. It is argued that physiologicaltremor is likely to be multifactorial in origin, with contributionsnot only from CNS 10-Hz range oscillatory activity, but alsofrom motor unit firing properties, mechanical resonances andreflex loop resonances. Different origins are likely to dominateunder different conditions. While some pathological tremorsappear to arise as a distortion of central or peripheral componentsof physiological tremor, others arise de novo, such as the pathologicaloscillation of 3- to 6-Hz parkinsonian tremor. CNS oscillationsoutside the 10-Hz range are also found to modulate limb activityin normal individuals, and oscillatory activity exists in othermotor systems such as eye movements. Finally, it is shown howstudies of peripheral oscillations may help develop hypotheseson the role of CNS oscillations in motor control, includingthe proposed `binding' function of synchronized oscillationsand the possibility that motor signals could be coded by frequencyof modulating oscillation as well as by synaptic connectivity.

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