Vestibular actions on back and lower limb muscles during postural tasks in man

doi:10.1113/jphysiol.2002.030031

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First published online on December 6, 2002.
Copyright © 2002 by The Physiological Society

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Received August 1, 2002
Accepted after revision October 29, 2002

Vestibular actions on back and lower limb muscles during postural tasks in man

Alima S. Ali¹, Katherine A. Rowen¹, and J. F. Iles²^*

¹ Department of Zoology, University of Oxford, South Parks Road, Oxford, OX1 3PS, UK
² St Hugh's College, Oxford, OX2 6LE, UK

^* To whom correspondence should be addressed. E-mail: john.iles{at}zoo.ox.ac.uk.

The vestibular system was activated by galvanic electricalstimulation in 19 normal subjects. With the head turned to oneside so that the stimulating anode was on the posterior mastoidprocess, stimulation caused standing subjects to sway backwardsin the sagittal plane. Electromyography showed bilateral activationof erector spinae, gluteus maximus, biceps femoris, soleus andintrinsic foot (toe flexor) muscles. When head direction orelectrode polarity was reversed so that the anode was anterior,all those muscles became less active and the subjects swayedforwards. With the head facing forward, stimulation caused sidewayssway in the coronal plane, towards the anode, with excitationof the erector spinae on the anode side and reduced activityon the cathode side. The limb muscles were activated on theside opposite the anode and showed complex responses on theanode side. Responses were detectable in the erectores spinaemuscles in sitting subjects. No responses in limb muscles weredetected in the sitting posture. Subject responses in erectorspinae recorded at L3/L4 had latencies from 59 to 110 ms, usinga 2 mA stimulus. Latencies in lower limb muscles were longer.The results suggest a role for the vestibular system and descendingbrain stem motor pathways to the erectores spinae muscles inthe control of postural orientation of the back when sittingand standing. The conduction velocity in the motor pathway wasestimated to be 13 ± 10 m s^-1 (mean ± S.D., n= 12 subjects).

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