Handedness results from complementary hemispheric dominance, not global hemispheric dominance: Evidence from mechanically coupled bilateral movements
Handedness results from complementary hemispheric dominance, not global hemispheric dominance: Evidence from mechanically coupled bilateral movements
Two contrasting views of handedness can be described as 1) complementary dominance, in which each hemisphere is specialized for different aspects of motor control, and 2) global dominance, in which the hemisphere contralateral to the dominant arm is specialized for all aspects of motor control. The present study sought to determine which motor lateralization hypothesis best predicts motor performance during common bilateral task of stabilizing an object (e.g. bread) with one hand while applying forces to the object (e.g. slicing) using the other hand. We designed an experimental equivalent of this task, performed in a virtual environment with the unseen arms supported by frictionless air-sleds. The hands were connected by a spring, and the task was to maintain the position of one hand, while moving the other hand to a target. Thus, the reaching hand was required to take account of the spring load to make smooth and accurate trajectories, while the stabilizer hand was required to impede the spring load to keep a constant position. Right-handed subjects performed two task sessions (right hand reach and left hand stabilize; left hand reach and right hand stabilize) with the order of the sessions counterbalanced between groups. Our results indicate a hand by task-component interaction, such that the right hand showed straighter reaching performance while the left showed more stable holding performance. These findings provide support for the complementary dominance hypothesis and suggest that the specializations of each cerebral hemisphere for impedance and dynamic control mechanisms are expressed during bilateral interactive tasks.
729-740
Woytowicz, Elizabeth J.
ccb7203f-ea40-4661-95cd-00d476624a0a
Westlake, Kelly P.
64b52d59-cdc5-465f-a246-999cb502b2b4
Whitall, Jill
9761aefb-be80-4270-bc1f-0e726399376e
Sainburg, Robert L.
688f1ebd-4d3c-4bd7-8f4e-09a0c5373b56
1 August 2018
Woytowicz, Elizabeth J.
ccb7203f-ea40-4661-95cd-00d476624a0a
Westlake, Kelly P.
64b52d59-cdc5-465f-a246-999cb502b2b4
Whitall, Jill
9761aefb-be80-4270-bc1f-0e726399376e
Sainburg, Robert L.
688f1ebd-4d3c-4bd7-8f4e-09a0c5373b56
Woytowicz, Elizabeth J., Westlake, Kelly P., Whitall, Jill and Sainburg, Robert L.
(2018)
Handedness results from complementary hemispheric dominance, not global hemispheric dominance: Evidence from mechanically coupled bilateral movements.
Journal of Neurophysiology, 120 (2), .
(doi:10.1152/jn.00878.2017).
Abstract
Two contrasting views of handedness can be described as 1) complementary dominance, in which each hemisphere is specialized for different aspects of motor control, and 2) global dominance, in which the hemisphere contralateral to the dominant arm is specialized for all aspects of motor control. The present study sought to determine which motor lateralization hypothesis best predicts motor performance during common bilateral task of stabilizing an object (e.g. bread) with one hand while applying forces to the object (e.g. slicing) using the other hand. We designed an experimental equivalent of this task, performed in a virtual environment with the unseen arms supported by frictionless air-sleds. The hands were connected by a spring, and the task was to maintain the position of one hand, while moving the other hand to a target. Thus, the reaching hand was required to take account of the spring load to make smooth and accurate trajectories, while the stabilizer hand was required to impede the spring load to keep a constant position. Right-handed subjects performed two task sessions (right hand reach and left hand stabilize; left hand reach and right hand stabilize) with the order of the sessions counterbalanced between groups. Our results indicate a hand by task-component interaction, such that the right hand showed straighter reaching performance while the left showed more stable holding performance. These findings provide support for the complementary dominance hypothesis and suggest that the specializations of each cerebral hemisphere for impedance and dynamic control mechanisms are expressed during bilateral interactive tasks.
Text
Handedness results from Complementary Hemispheric Dominance, not Global Hemispheric Dominance: Evidence from Mechanically Coupled Bilateral Movements
- Accepted Manuscript
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Accepted/In Press date: 6 May 2018
e-pub ahead of print date: 9 May 2018
Published date: 1 August 2018
Identifiers
Local EPrints ID: 421532
URI: http://eprints.soton.ac.uk/id/eprint/421532
ISSN: 0022-3077
PURE UUID: c9651658-67cb-4ae8-8f2e-cfaabc08eee0
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Date deposited: 14 Jun 2018 16:30
Last modified: 16 Mar 2024 06:42
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Author:
Elizabeth J. Woytowicz
Author:
Kelly P. Westlake
Author:
Jill Whitall
Author:
Robert L. Sainburg
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