Brain, Vol. 122, No. 3, 567-579,
March 1999
© 1999 Oxford University Press
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Impaired modulation of quadriceps tendon jerk reflex during spastic gait: differences between spinal and cerebral lesions
1 Department of Clinical Neurology and Neurophysiology, University of Freiburg, Germany and 2 Swiss Paraplegic Centre, University Hospital Balgrist, Zürich, Switzerland
Correspondence to:
Dr Michael Faist, Department of Clinical Neurology and Neurophysiology, University of Freiburg, Breisacherstr. 64, D-79106-Freiburg, Germany E-mail: faist{at}nz11.ukl.uni-freiburg.de
In healthy subjects, functionally appropriate modulation of short latency leg muscle reflexes occurs during gait. This modulation has been ascribed, in part, to changes in presynaptic inhibition of Ia afferents. The changes in modulation of quadriceps tendon jerk reflexes during gait of healthy subjects were compared with those of hemi- or paraparetic spastic patients. The spasticity was due to unilateral cerebral infarction or traumatic spinal cord injury, respectively. The modulation of the quadriceps femoris tendon jerk reflex at 16 phases of the step cycle was studied. The reflex responses obtained during treadmill walking were compared with control values obtained during gait-mimicking standing postures with corresponding levels of voluntary muscle contraction and knee angles. In healthy subjects the size of the reflexes was profoundly modulated and was generally depressed throughout the step cycle. In patients with spinal lesion the reflex depression during gait was almost removed and was associated with weak or no modulation during the step cycle. In patients with cerebral lesion there was less depression of the reflex size associated with a reduced reflex modulation on the affected side compared with healthy subjects. On the `unaffected' side of these patients reflex modulation was similar to that of healthy subjects, but the reflex size during gait was not significantly different from standing control values. These observations suggest that the mechanisms responsible for the depression of reflex size and the modulation normally seen during gait in healthy subjects are impaired to different extents in spasticity of spinal or cerebral origin, possibly due to the unilateral preservation of fibre tracts in hemiparesis.
tendon-tap reflexes; gait; spasticity; hemiparesis; paraparesis
MI = modulation index
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