The timing of primary orthostatic tremor bursts has a task-specific plasticity

doi:10.1093/brain/123.2.254

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Brain, Vol. 123, No. 2, 254-266, February 2000
© 2000 Oxford University Press

The timing of primary orthostatic tremor bursts has a task-specific plasticity

J. H. McAuley, T. C. Britton, J. C. Rothwell, L. J. Findley and C. D. Marsden

MRC Human Movement and Balance Unit, Institute of Neurology, Queen Square, 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

Primary orthostatic tremor is characterized by unsteadinessand shakiness of the legs while standing. It is due to a remarkablystrong and regular EMG modulation at ~16 Hz that is thoughtto be of CNS origin. Previous studies have shown that the tremorfrequency is the same in all involved muscles and that the timerelation between bursts of activity in different muscles maybe fixed (e.g. always co-contracting or always contracting inan alternating pattern). Here we have used frequency domainanalysis of postural muscle EMG signals in five primary orthostatictremor patients and in two normal controls to explore the natureof such fixed timing patterns. The timing is found not to relatesimply to the relative conduction times for passage of rhythmicbursts from a central oscillation to different muscles. Indeed,although the timing pattern (expressed as phase) of the 16-HzEMG bursts in different postural muscles remains constant whilethe subject adopts a certain steady posture, it is differentfor different subjects and also changes when the same subjectadopts a different posture. It seems unlikely that such complextask-dependent timing relations of rhythmic postural muscleactivity are due to the primary pathology of primary orthostatictremor. Instead, we suggest that the abnormally strong peripheralmanifestation of a 16-Hz CNS oscillation merely unmasks normalcentral processes so that the timing patterns may provide aclue to the nature of postural motor control.

primary orthostatic tremor; coherence; phase

FFT = fast Fourier transformation

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