The effect of motor overflow on bimanual asymmetric force coordination
Motor overflow, typically described in the context of unimanual movements, refers to the natural tendency for a ‘resting’ limb to move during movement of the opposite limb and is thought to be influenced by inter-hemispheric interactions and intra-cortical networks within the ‘resting’ hemisphere. I...
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| Published in | Experimental brain research Vol. 235; no. 4; pp. 1097 - 1105 |
|---|---|
| Main Authors | , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Berlin/Heidelberg
Springer Berlin Heidelberg
01.04.2017
Springer Springer Nature B.V |
| Subjects | |
| Online Access | Get full text |
| ISSN | 0014-4819 1432-1106 1432-1106 |
| DOI | 10.1007/s00221-016-4867-2 |
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| Abstract | Motor overflow, typically described in the context of unimanual movements, refers to the natural tendency for a ‘resting’ limb to move during movement of the opposite limb and is thought to be influenced by inter-hemispheric interactions and intra-cortical networks within the ‘resting’ hemisphere. It is currently unknown, however, how motor overflow contributes to asymmetric force coordination task accuracy, referred to as bimanual interference, as there is need to generate unequal forces and corticospinal output for each limb. Here, we assessed motor overflow via motor evoked potentials (MEPs) and the regulation of motor overflow via inter-hemispheric inhibition (IHI) and short-intra-cortical inhibition (SICI) using transcranial magnetic stimulation in the presence of unimanual and bimanual isometric force production. All outcomes were measured in the left first dorsal interosseous (test hand) muscle, which maintained 30% maximal voluntary contraction (MVC), while the right hand (conditioning hand) was maintained at rest, 10, 30, or 70% of its MVC. We have found that as higher forces are generated with the conditioning hand, MEP amplitudes at the active test hand decreased and inter-hemispheric inhibition increased, suggesting reduced motor overflow in the presence of bimanual asymmetric forces. Furthermore, we found that subjects with less motor overflow (i.e., reduced MEP amplitudes in the test hemisphere) demonstrated poorer accuracy in maintaining 30% MVC across all conditions. These findings suggest that motor overflow may serve as an adaptive substrate to support bimanual asymmetric force coordination. |
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| AbstractList | Motor overflow, typically described in the context of unimanual movements, refers to the natural tendency for a 'resting' limb to move during movement of the opposite limb and is thought to be influenced by inter-hemispheric interactions and intra-cortical networks within the 'resting' hemisphere. It is currently unknown, however, how motor overflow contributes to asymmetric force coordination task accuracy, referred to as bimanual interference, as there is need to generate unequal forces and corticospinal output for each limb. Here, we assessed motor overflow via motor evoked potentials (MEPs) and the regulation of motor overflow via inter-hemispheric inhibition (IHI) and short-intra-cortical inhibition (SICI) using transcranial magnetic stimulation in the presence of unimanual and bimanual isometric force production. All outcomes were measured in the left first dorsal interosseous (test hand) muscle, which maintained 30% maximal voluntary contraction (MVC), while the right hand (conditioning hand) was maintained at rest, 10, 30, or 70% of its MVC. We have found that as higher forces are generated with the conditioning hand, MEP amplitudes at the active test hand decreased and inter-hemispheric inhibition increased, suggesting reduced motor overflow in the presence of bimanual asymmetric forces. Furthermore, we found that subjects with less motor overflow (i.e., reduced MEP amplitudes in the test hemisphere) demonstrated poorer accuracy in maintaining 30% MVC across all conditions. These findings suggest that motor overflow may serve as an adaptive substrate to support bimanual asymmetric force coordination. Motor overflow, typically described in the context of unimanual movements, refers to the natural tendency for a ‘resting’ limb to move during movement of the opposite limb and is thought to be influenced by inter-hemispheric interactions and intra-cortical networks within the ‘resting’ hemisphere. It is currently unknown, however, how motor overflow contributes to asymmetric force coordination task accuracy, referred to as bimanual interference, as there is need to generate unequal forces and corticospinal output for each limb. Here, we assessed motor overflow via motor evoked potentials (MEPs) and the regulation of motor overflow via interhemispheric inhibition (IHI) and short-intracortical inhibition (SICI) using transcranial magnetic stimulation in the presence of unimanual and bimanual isometric force production. All outcomes were measured in the left first dorsal interosseous (test hand) muscle, which maintained 30% maximal voluntary contraction (MVC) while the right hand (conditioning hand) was maintained at rest, 10%, 30% or 70% of its MVC. We have found that as higher forces are generated with the conditioning hand, MEP amplitudes at the active test hand decreased and interhemispheric inhibition increased, suggesting reduced motor overflow in the presence of bimanual asymmetric forces. Further, we found that subjects with less motor overflow (i.e. reduced MEP amplitudes in the test hemisphere) demonstrated poorer accuracy in maintaining 30% MVC across all conditions. These findings suggest that motor overflow may serve as an adaptive substrate to support bimanual asymmetric force coordination. Motor overflow, typically described in the context of unimanual movements, refers to the natural tendency for a 'resting' limb to move during movement of the opposite limb and is thought to be influenced by inter-hemispheric interactions and intra-cortical networks within the 'resting' hemisphere. It is currently unknown, however, how motor overflow contributes to asymmetric force coordination task accuracy, referred to as bimanual interference, as there is need to generate unequal forces and corticospinal output for each limb. Here, we assessed motor overflow via motor evoked potentials (MEPs) and the regulation of motor overflow via inter-hemispheric inhibition (IHI) and short-intra-cortical inhibition (SICI) using transcranial magnetic stimulation in the presence of unimanual and bimanual isometric force production. All outcomes were measured in the left first dorsal interosseous (test hand) muscle, which maintained 30% maximal voluntary contraction (MVC), while the right hand (conditioning hand) was maintained at rest, 10, 30, or 70% of its MVC. We have found that as higher forces are generated with the conditioning hand, MEP amplitudes at the active test hand decreased and inter-hemispheric inhibition increased, suggesting reduced motor overflow in the presence of bimanual asymmetric forces. Furthermore, we found that subjects with less motor overflow (i.e., reduced MEP amplitudes in the test hemisphere) demonstrated poorer accuracy in maintaining 30% MVC across all conditions. These findings suggest that motor overflow may serve as an adaptive substrate to support bimanual asymmetric force coordination.Motor overflow, typically described in the context of unimanual movements, refers to the natural tendency for a 'resting' limb to move during movement of the opposite limb and is thought to be influenced by inter-hemispheric interactions and intra-cortical networks within the 'resting' hemisphere. It is currently unknown, however, how motor overflow contributes to asymmetric force coordination task accuracy, referred to as bimanual interference, as there is need to generate unequal forces and corticospinal output for each limb. Here, we assessed motor overflow via motor evoked potentials (MEPs) and the regulation of motor overflow via inter-hemispheric inhibition (IHI) and short-intra-cortical inhibition (SICI) using transcranial magnetic stimulation in the presence of unimanual and bimanual isometric force production. All outcomes were measured in the left first dorsal interosseous (test hand) muscle, which maintained 30% maximal voluntary contraction (MVC), while the right hand (conditioning hand) was maintained at rest, 10, 30, or 70% of its MVC. We have found that as higher forces are generated with the conditioning hand, MEP amplitudes at the active test hand decreased and inter-hemispheric inhibition increased, suggesting reduced motor overflow in the presence of bimanual asymmetric forces. Furthermore, we found that subjects with less motor overflow (i.e., reduced MEP amplitudes in the test hemisphere) demonstrated poorer accuracy in maintaining 30% MVC across all conditions. These findings suggest that motor overflow may serve as an adaptive substrate to support bimanual asymmetric force coordination. |
| Audience | Academic |
| Author | Machado, Andre G. Cunningham, David A. Yue, Guang H. Potter-Baker, Kelsey A. Plow, Ela B. Allexandre, Didier Knutson, Jayme S. Roelle, Sarah M. Sankarasubramanian, Vishwanath |
| AuthorAffiliation | 1 Human Performance & Engineering Research, Kessler Foundation, West Orange, NJ 3 MetroHealth Medical Center, Cleveland, OH 4 Center for Neurological Restoration, Neurosurgery, Neurological Inst., Cleveland Clinic, Cleveland, OH 2 Dept. of Biomedical Engineering, Lerner Research Inst., Cleveland Clinic, Cleveland, OH 5 Dept. of Physical Medicine & Rehab, Neurological Inst., Cleveland Clinic, Cleveland, OH |
| AuthorAffiliation_xml | – name: 2 Dept. of Biomedical Engineering, Lerner Research Inst., Cleveland Clinic, Cleveland, OH – name: 4 Center for Neurological Restoration, Neurosurgery, Neurological Inst., Cleveland Clinic, Cleveland, OH – name: 3 MetroHealth Medical Center, Cleveland, OH – name: 5 Dept. of Physical Medicine & Rehab, Neurological Inst., Cleveland Clinic, Cleveland, OH – name: 1 Human Performance & Engineering Research, Kessler Foundation, West Orange, NJ |
| Author_xml | – sequence: 1 givenname: David A. surname: Cunningham fullname: Cunningham, David A. organization: Human Performance and Engineering Research, Kessler Foundation, Department of Biomedical Engineering, Lerner Research Institute, Cleveland Clinic – sequence: 2 givenname: Sarah M. surname: Roelle fullname: Roelle, Sarah M. organization: Department of Biomedical Engineering, Lerner Research Institute, Cleveland Clinic – sequence: 3 givenname: Didier surname: Allexandre fullname: Allexandre, Didier organization: Human Performance and Engineering Research, Kessler Foundation – sequence: 4 givenname: Kelsey A. surname: Potter-Baker fullname: Potter-Baker, Kelsey A. organization: Department of Biomedical Engineering, Lerner Research Institute, Cleveland Clinic – sequence: 5 givenname: Vishwanath surname: Sankarasubramanian fullname: Sankarasubramanian, Vishwanath organization: Department of Biomedical Engineering, Lerner Research Institute, Cleveland Clinic – sequence: 6 givenname: Jayme S. surname: Knutson fullname: Knutson, Jayme S. organization: Physical Medicine and Rehabilitation, MetroHealth Rehabilitation Institute, Case Western Reserve University – sequence: 7 givenname: Guang H. surname: Yue fullname: Yue, Guang H. organization: Human Performance and Engineering Research, Kessler Foundation – sequence: 8 givenname: Andre G. surname: Machado fullname: Machado, Andre G. organization: Center for Neurological Restoration, Department of Physical Medicine and Rehabilitation, Neurological Institute, Cleveland Clinic – sequence: 9 givenname: Ela B. surname: Plow fullname: Plow, Ela B. email: plowe2@ccf.org organization: Department of Biomedical Engineering, Lerner Research Institute, Cleveland Clinic, Center for Neurological Restoration, Department of Physical Medicine and Rehabilitation, Neurological Institute, Cleveland Clinic |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/28091708$$D View this record in MEDLINE/PubMed |
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| CitedBy_id | crossref_primary_10_1016_j_jht_2024_06_001 crossref_primary_10_1177_1545968319863709 crossref_primary_10_1515_revneuro_2022_0020 crossref_primary_10_1523_JNEUROSCI_2149_23_2024 crossref_primary_10_1007_s00221_018_5261_z crossref_primary_10_1016_j_ergon_2020_103056 crossref_primary_10_1007_s00221_021_06074_z crossref_primary_10_1007_s00221_023_06732_4 crossref_primary_10_1016_j_neuroscience_2021_03_012 |
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| Snippet | Motor overflow, typically described in the context of unimanual movements, refers to the natural tendency for a ‘resting’ limb to move during movement of the... Motor overflow, typically described in the context of unimanual movements, refers to the natural tendency for a 'resting' limb to move during movement of the... |
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| SubjectTerms | Adult Analysis of Variance Biomedical and Life Sciences Biomedicine brain Care and treatment Diagnosis Electromyography Evoked Potentials, Motor - physiology Female Functional Laterality - physiology Hand Humans Hypotheses Magnetic brain stimulation Male Motor Cortex - physiology Movement - physiology muscles Neural Inhibition - physiology Neurology Neurosciences Psychomotor disorders Psychomotor Performance - physiology Pyramidal Tracts - physiology Research Article Statistics as Topic Transcranial Magnetic Stimulation Young Adult |
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| Title | The effect of motor overflow on bimanual asymmetric force coordination |
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