Journal Article

Walking flexibility after hemispherectomy: split-belt treadmill adaptation and feedback control

Julia T. Choi, Eileen P. G. Vining, Darcy S. Reisman and Amy J. Bastian

in Brain

Published on behalf of The Guarantors of Brain

Volume 132, issue 3, pages 722-733
Published in print March 2009 | ISSN: 0006-8950
Published online December 2008 | e-ISSN: 1460-2156 | DOI: http://dx.doi.org/10.1093/brain/awn333
Walking flexibility after hemispherectomy: split-belt treadmill adaptation and feedback control

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Walking flexibility depends on use of feedback or reactive control to respond to unexpected changes in the environment, and the ability to adapt feedforward or predictive control for sustained alterations. Recent work has demonstrated that cerebellar damage impairs feedforward adaptation, but not feedback control, during human split-belt treadmill walking. In contrast, focal cerebral damage from stroke did not impair either process. This led to the suggestion that cerebellar interactions with the brainstem are more important than those with cerebral structures for feedforward adaptation. Does complete removal of a cerebral hemisphere affect either of these processes? We studied split-belt walking in 10 children and adolescents (age 6–18 years) with hemispherectomy (i.e. surgical removal of one entire cerebral hemisphere) and 10 age- and sex-matched control subjects. Hemispherectomy did not impair reactive feedback control, though feedforward adaptation was impaired in some subjects. Specifically, some showed reduced or absent adaptation of inter-leg timing, whereas adaptation of spatial control was intact. These results suggest that the cerebrum is involved in adaptation of the timing, but not spatial, elements of limb movements.

Keywords: locomotion; children; motor learning

Journal Article.  7499 words.  Illustrated.

Subjects: Neurology ; Neuroscience

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