Primary orthostatic tremor is an exaggeration of a physiological response to instability

Primary orthostatic tremor (POT) is a rare disorder characterised by an intense sense of unsteadiness upon standing and a 16‐Hz tremor in which the timing between tremor bursts in different muscles (unilateral and bilateral) remains constant. Hitherto, similar EMG activity has not been described in healthy subjects and it has been postulated that the oscillations seen in POT are primarily pathological. In this study, EMG was recorded from tibialis anterior in healthy subjects who were made unsteady through vestibular galvanic stimulation or leaning backwards. Under these conditions, a peak at approximately 16 Hz was seen in the coherence between the left and right tibialis anterior. This bilateral coherence was absent when the subjects activated the same muscles when not unsteady. These data indicate the existence of a physiological system involved in organising postural responses under circumstances of imbalance and characterised by a highly synchronised output at approximately 16 Hz. In addition, the results suggest that the core abnormality in POT may be an exaggerated sense of unsteadiness when standing still, which then elicits activity from a 16‐Hz oscillator normally engaged in postural responses. © 2002 Movement Disorder Society

[1]  G. Deuschl,et al.  Involvement of cranial muscles and high intermuscular coherence in orthostatic tremor , 1999, Annals of neurology.

[2]  B. Day,et al.  A dissociation between subjective and objective unsteadiness in primary orthostatic tremor. , 2001, Brain : a journal of neurology.

[3]  A. Bronstein,et al.  Force platform recordings in the diagnosis of primary orthostatic tremor. , 2001, Gait & posture.

[4]  M. Vidailhet,et al.  Fast orthostatic tremor in Parkinson's disease mimicking primary orthostatic tremor , 2001, Movement disorders : official journal of the Movement Disorder Society.

[5]  C D Marsden,et al.  The timing of primary orthostatic tremor bursts has a task-specific plasticity. , 2000, Brain : a journal of neurology.

[6]  A M Amjad,et al.  A framework for the analysis of mixed time series/point process data--theory and application to the study of physiological tremor, single motor unit discharges and electromyograms. , 1995, Progress in biophysics and molecular biology.

[7]  M. Lauk,et al.  The effects of stochastic galvanic vestibular stimulation on human postural sway , 1999, Experimental Brain Research.

[8]  D. Halliday,et al.  The frequency content of common synaptic inputs to motoneurones studied during voluntary isometric contraction in man. , 1993, The Journal of physiology.

[9]  F. Sharbrough,et al.  Orthostatic tremor: Clinical and electrophysiologic characteristics , 1993, Muscle & nerve.

[10]  M. Manto,et al.  Orthostatic tremor associated with a pontine lesion or cerebellar disease , 1998, Neurology.

[11]  P. Thompson Orthostatic tremor , 1999, Journal of neurology, neurosurgery, and psychiatry.

[12]  C D Marsden,et al.  An unusual jaw tremor with characteristics of primary orthostatic tremor , 1999, Movement disorders : official journal of the Movement Disorder Society.

[13]  L. J. Findley,et al.  Primary orthostatic tremor: further observations in six cases , 1992, Journal of Neurology.

[14]  J. Benito-León,et al.  Orthostatic tremor with cerebellar ataxia , 1998, Journal of Neurology.

[15]  P. Thompson,et al.  A positron emission tomography study of primary orthostatic tremor , 1996, Neurology.

[16]  P. Brown New clinical sign for orthostatic tremor , 1995, The Lancet.

[17]  P. Brown Cortical drives to human muscle: the Piper and related rhythms , 2000, Progress in Neurobiology.

[18]  P. Ashby,et al.  Orthostatic tremor arises from an oscillator in the posterior fossa , 2001, Movement disorders : official journal of the Movement Disorder Society.

[19]  G. Deuschl,et al.  The pathophysiology of tremor , 2001, Muscle & nerve.

[20]  J A Molina,et al.  Symptomatic orthostatic tremor in pontine lesions , 1997, Neurology.

[21]  J. Frank,et al.  Surface height effects on postural control: a hypothesis for a stiffness strategy for stance. , 1999, Journal of vestibular research : equilibrium & orientation.