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J Neurophysiol (April 1, 2003). 10.1152/jn.00787.2002
Submitted on Submitted 10 September 2002; accepted in final form 26 November
2002
1Interdisciplinary Program in Movement Science, Program in Physical Therapy, Washington University School of Medicine, St. Louis, Missouri 63108; and 2Kennedy Krieger Institute and 3Department of Neurology, Johns Hopkins University School of Medicine, Baltimore, Maryland 21205
Morton, Susanne M. and
Amy J. Bastian.
Relative Contributions of Balance and Voluntary Leg-Coordination
Deficits to Cerebellar Gait Ataxia. J. Neurophysiol. 89: 1844-1856, 2003. Different cerebellar
regions participate in balance control and voluntary limb coordination,
both of which might be important for normal bipedal walking. We wanted
to determine the relative contributions of balance versus
leg-coordination deficits to cerebellar gait ataxia in humans. We
studied 20 subjects with cerebellar damage and 20 control subjects
performing three tasks: a lateral weight-shifting task to measure
balance, a visually guided stepping task to measure leg- coordination,
and walking. We recorded three-dimensional joint position data during
all tasks and center of pressure coordinates during weight-shifting.
Each cerebellar subject was categorized as having no detectable
deficits, a balance deficit only, a leg-placement deficit only, or both
deficits. We then determined the walking abnormalities associated with
each of these categories. Five of 10 measures of gait ataxia were
abnormal in cerebellar subjects with a balance deficit, but only 1 was
abnormal in cerebellar subjects with a leg-placement deficit.
Furthermore, subjects with a balance deficit performed worse than
subjects with a leg-placement deficit on 9 of the 10 gait measures.
Finally, performance on the balance task, but not the leg-placement
task, explained a significant proportion of the variance in walking
speed for the entire cerebellar group. We conclude that balance
deficits are more closely related to cerebellar gait ataxia than
leg-placement deficits. Our findings are consistent with animal
literature, which has suggested that cerebellar control of balance and
gait are interrelated, and dissociable from cerebellar control of
voluntary, visually guided limb movements.
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