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Bilateral Interference in Motor Performance in Homologous vs. Non-homologous Proximal and Distal Effectors

Performance of bimanual motor actions requires coordinated and integrated bilateral communication, but in some bimanual tasks, neural interactions and crosstalk might cause bilateral interference. The level of interference probably depends on the proportions of bilateral interneurons connecting homo...

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Autores principales: Aune, Morten Andreas, Lorås, Håvard, Nynes, Alexander, Aune, Tore Kristian
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Frontiers Media S.A. 2021
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8310955/
https://www.ncbi.nlm.nih.gov/pubmed/34322064
http://dx.doi.org/10.3389/fpsyg.2021.680268
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author Aune, Morten Andreas
Lorås, Håvard
Nynes, Alexander
Aune, Tore Kristian
author_facet Aune, Morten Andreas
Lorås, Håvard
Nynes, Alexander
Aune, Tore Kristian
author_sort Aune, Morten Andreas
collection PubMed
description Performance of bimanual motor actions requires coordinated and integrated bilateral communication, but in some bimanual tasks, neural interactions and crosstalk might cause bilateral interference. The level of interference probably depends on the proportions of bilateral interneurons connecting homologous areas of the motor cortex in the two hemispheres. The neuromuscular system for proximal muscles has a higher number of bilateral interneurons connecting homologous areas of the motor cortex compared to distal muscles. Based on the differences in neurophysiological organization for proximal vs. distal effectors in the upper extremities, the purpose of the present experiment was to evaluate how the level of bilateral interference depends on whether the bilateral interference task is performed with homologous or non-homologous effectors as the primary task. Fourteen participants first performed a unilateral primary motor task with the dominant arm with (1) proximal and (2) distal controlled joysticks. Performance in the unilateral condition with the dominant arm was compared to the same effector’s performance when two different bilateral interference tasks were performed simultaneously with the non-dominant arm. The two different bilateral interference tasks were subdivided into (1) homologous and (2) non-homologous effectors. The results showed a significant decrease in performance for both proximal and distal controlled joysticks, and this effect was independent of whether the bilateral interference tasks were introduced with homologous or non-homologous effectors. The overall performance decrease as a result of bilateral interference was larger for proximal compared to distal controlled joysticks. Furthermore, a proximal bilateral interference caused a larger performance decrement independent of whether the primary motor task was controlled by a proximal or distal joystick. A novel finding was that the distal joystick performance equally interfered with either homologous (distal bilateral interference) or non-homologous (proximal bilateral interference) interference tasks performed simultaneously. The results indicate that the proximal–distal distinction is an important organismic constraint on motor control and for understanding bilateral communication and interference in general and, in particular, how bilateral interference caused by homologous vs. non-homologous effectors impacts motor performance for proximal and distal effectors. The results seem to map neuroanatomical and neurophysiological differences for these effectors.
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spelling pubmed-83109552021-07-27 Bilateral Interference in Motor Performance in Homologous vs. Non-homologous Proximal and Distal Effectors Aune, Morten Andreas Lorås, Håvard Nynes, Alexander Aune, Tore Kristian Front Psychol Psychology Performance of bimanual motor actions requires coordinated and integrated bilateral communication, but in some bimanual tasks, neural interactions and crosstalk might cause bilateral interference. The level of interference probably depends on the proportions of bilateral interneurons connecting homologous areas of the motor cortex in the two hemispheres. The neuromuscular system for proximal muscles has a higher number of bilateral interneurons connecting homologous areas of the motor cortex compared to distal muscles. Based on the differences in neurophysiological organization for proximal vs. distal effectors in the upper extremities, the purpose of the present experiment was to evaluate how the level of bilateral interference depends on whether the bilateral interference task is performed with homologous or non-homologous effectors as the primary task. Fourteen participants first performed a unilateral primary motor task with the dominant arm with (1) proximal and (2) distal controlled joysticks. Performance in the unilateral condition with the dominant arm was compared to the same effector’s performance when two different bilateral interference tasks were performed simultaneously with the non-dominant arm. The two different bilateral interference tasks were subdivided into (1) homologous and (2) non-homologous effectors. The results showed a significant decrease in performance for both proximal and distal controlled joysticks, and this effect was independent of whether the bilateral interference tasks were introduced with homologous or non-homologous effectors. The overall performance decrease as a result of bilateral interference was larger for proximal compared to distal controlled joysticks. Furthermore, a proximal bilateral interference caused a larger performance decrement independent of whether the primary motor task was controlled by a proximal or distal joystick. A novel finding was that the distal joystick performance equally interfered with either homologous (distal bilateral interference) or non-homologous (proximal bilateral interference) interference tasks performed simultaneously. The results indicate that the proximal–distal distinction is an important organismic constraint on motor control and for understanding bilateral communication and interference in general and, in particular, how bilateral interference caused by homologous vs. non-homologous effectors impacts motor performance for proximal and distal effectors. The results seem to map neuroanatomical and neurophysiological differences for these effectors. Frontiers Media S.A. 2021-07-12 /pmc/articles/PMC8310955/ /pubmed/34322064 http://dx.doi.org/10.3389/fpsyg.2021.680268 Text en Copyright © 2021 Aune, Lorås, Nynes and Aune. https://creativecommons.org/licenses/by/4.0/This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.
spellingShingle Psychology
Aune, Morten Andreas
Lorås, Håvard
Nynes, Alexander
Aune, Tore Kristian
Bilateral Interference in Motor Performance in Homologous vs. Non-homologous Proximal and Distal Effectors
title Bilateral Interference in Motor Performance in Homologous vs. Non-homologous Proximal and Distal Effectors
title_full Bilateral Interference in Motor Performance in Homologous vs. Non-homologous Proximal and Distal Effectors
title_fullStr Bilateral Interference in Motor Performance in Homologous vs. Non-homologous Proximal and Distal Effectors
title_full_unstemmed Bilateral Interference in Motor Performance in Homologous vs. Non-homologous Proximal and Distal Effectors
title_short Bilateral Interference in Motor Performance in Homologous vs. Non-homologous Proximal and Distal Effectors
title_sort bilateral interference in motor performance in homologous vs. non-homologous proximal and distal effectors
topic Psychology
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8310955/
https://www.ncbi.nlm.nih.gov/pubmed/34322064
http://dx.doi.org/10.3389/fpsyg.2021.680268
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