Influence of Controlled Stomatognathic Motor Activity on Sway, Control and Stability of the Center of Mass During Dynamic Steady-State Balance—An Uncontrolled Manifold Analysis

Multiple sensory signals from visual, somatosensory and vestibular systems are used for human postural control. To maintain postural stability, the central nervous system keeps the center of mass (CoM) within the base of support. The influence of the stomatognathic motor system on postural control h...

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Published inFrontiers in human neuroscience Vol. 16; p. 868828
Main Authors Fadillioglu, Cagla, Kanus, Lisa, Möhler, Felix, Ringhof, Steffen, Hellmann, Daniel, Stein, Thorsten
Format Journal Article
LanguageEnglish
Published Switzerland Frontiers Research Foundation 25.03.2022
Frontiers Media S.A
Subjects
Balance
Central nervous system
Falls
Human Neuroscience
Jaw
jaw clenching
Kinematics
masseter
Mathematical models
Motor activity
Motor task performance
Muscle contraction
Physiology
postural control
Posture
Posturomed
Sensory evaluation
Statistical analysis
Tongue
tongue pressing
UCM
Vestibular system
Posturomed
covariation
tongue pressing
detrended fluctuation analysis
postural control
jaw clenching
UCM
masseter
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Abstract Multiple sensory signals from visual, somatosensory and vestibular systems are used for human postural control. To maintain postural stability, the central nervous system keeps the center of mass (CoM) within the base of support. The influence of the stomatognathic motor system on postural control has been established under static conditions, but it has not yet been investigated during dynamic steady-state balance. The purpose of the study was to investigate the effects of controlled stomatognathic motor activity on the control and stability of the CoM during dynamic steady-state balance. A total of 48 physically active and healthy adults were assigned to three groups with different stomatognathic motor conditions: jaw clenching, tongue pressing and habitual stomatognathic behavior. Dynamic steady-state balance was assessed using an oscillating platform and the kinematic data were collected with a 3D motion capturing system. The path length (PL) of the 3D CoM trajectory was used for quantifying CoM sway. Temporal dynamics of the CoM movement was assessed with a detrended fluctuation analysis (DFA). An uncontrolled manifold (UCM) analysis was applied to assess the stability and control of the CoM with a subject-specific anthropometric 3D model. The statistical analysis revealed that the groups did not differ significantly in PL, DFA scaling exponents or UCM parameters. The results indicated that deliberate jaw clenching or tongue pressing did not seem to affect the sway, control or stability of the CoM on an oscillating platform significantly. Because of the task-specificity of balance, further research investigating the effects of stomatognathic motor activities on dynamic steady-state balance with different movement tasks are needed. Additionally, further analysis by use of muscle synergies or co-contractions may reveal effects on the level of muscles, which were not visible on the level of kinematics. This study can contribute to the understanding of postural control mechanisms, particularly in relation to stomatognathic motor activities and under dynamic conditions.
AbstractList Multiple sensory signals from visual, somatosensory and vestibular systems are used for human postural control. To maintain postural stability, the central nervous system keeps the center of mass (CoM) within the base of support. The influence of the stomatognathic motor system on postural control has been established under static conditions, but it has not yet been investigated during dynamic steady-state balance. The purpose of the study was to investigate the effects of controlled stomatognathic motor activity on the control and stability of the CoM during dynamic steady-state balance. A total of 48 physically active and healthy adults were assigned to three groups with different stomatognathic motor conditions: jaw clenching, tongue pressing and habitual stomatognathic behavior. Dynamic steady-state balance was assessed using an oscillating platform and the kinematic data were collected with a 3D motion capturing system. The path length (PL) of the 3D CoM trajectory was used for quantifying CoM sway. Temporal dynamics of the CoM movement was assessed with a detrended fluctuation analysis (DFA). An uncontrolled manifold (UCM) analysis was applied to assess the stability and control of the CoM with a subject-specific anthropometric 3D model. The statistical analysis revealed that the groups did not differ significantly in PL, DFA scaling exponents or UCM parameters. The results indicated that deliberate jaw clenching or tongue pressing did not seem to affect the sway, control or stability of the CoM on an oscillating platform significantly. Because of the task-specificity of balance, further research investigating the effects of stomatognathic motor activities on dynamic steady-state balance with different movement tasks are needed. Additionally, further analysis by use of muscle synergies or co-contractions may reveal effects on the level of muscles, which were not visible on the level of kinematics. This study can contribute to the understanding of postural control mechanisms, particularly in relation to stomatognathic motor activities and under dynamic conditions.
Multiple sensory signals from visual, somatosensory and vestibular systems are used for human postural control. To maintain postural stability, the central nervous system keeps the center of mass (CoM) within the base of support. The influence of the stomatognathic motor system on postural control has been established under static conditions, but it has not yet been investigated during dynamic steady-state balance. The purpose of the study was to investigate the effects of controlled stomatognathic motor activity on the control and stability of the CoM during dynamic steady-state balance. A total of 48 physically active and healthy adults were assigned to three groups with different stomatognathic motor conditions: jaw clenching, tongue pressing and habitual stomatognathic behavior. Dynamic steady-state balance was assessed using an oscillating platform and the kinematic data were collected with a 3D motion capturing system. The path length (PL) of the 3D CoM trajectory was used for quantifying CoM sway. Temporal dynamics of the CoM movement was assessed with a detrended fluctuation analysis (DFA). An uncontrolled manifold (UCM) analysis was applied to assess the control and stability of the CoM with a subject-specific anthropometric 3D model. The statistical analysis revealed that the groups did not differ significantly in PL, DFA scaling exponents or UCM parameters. The results indicated that deliberate jaw clenching or tongue pressing did not seem to affect the sway, control or stability of the CoM on an oscillating platform significantly. Because of the task-specificity of balance, further research investigating the effects of stomatognathic motor activities on dynamic steady-state balance with different movement tasks are needed. Additionally, further analysis by use of muscle synergies or co-contractions may reveal effects on the level of muscles, which were not visible on the level of kinematics. This study can contribute to the understanding of postural control mechanisms, particularly in relation to stomatognathic motor activities and under dynamic conditions.
Multiple sensory signals from visual, somatosensory and vestibular systems are used for human postural control. To maintain postural stability, the central nervous system keeps the center of mass (CoM) within the base of support. The influence of the stomatognathic motor system on postural control has been established under static conditions, but it has not yet been investigated during dynamic steady-state balance. The purpose of the study was to investigate the effects of controlled stomatognathic motor activity on the control and stability of the CoM during dynamic steady-state balance. A total of 48 physically active and healthy adults were assigned to three groups with different stomatognathic motor conditions: jaw clenching, tongue pressing and habitual stomatognathic behavior. Dynamic steady-state balance was assessed using an oscillating platform and the kinematic data were collected with a 3D motion capturing system. The path length (PL) of the 3D CoM trajectory was used for quantifying CoM sway. Temporal dynamics of the CoM movement was assessed with a detrended fluctuation analysis (DFA). An uncontrolled manifold (UCM) analysis was applied to assess the stability and control of the CoM with a subject-specific anthropometric 3D model. The statistical analysis revealed that the groups did not differ significantly in PL, DFA scaling exponents or UCM parameters. The results indicated that deliberate jaw clenching or tongue pressing did not seem to affect the sway, control or stability of the CoM on an oscillating platform significantly. Because of the task-specificity of balance, further research investigating the effects of stomatognathic motor activities on dynamic steady-state balance with different movement tasks are needed. Additionally, further analysis by use of muscle synergies or co-contractions may reveal effects on the level of muscles, which were not visible on the level of kinematics. This study can contribute to the understanding of postural control mechanisms, particularly in relation to stomatognathic motor activities and under dynamic conditions.Multiple sensory signals from visual, somatosensory and vestibular systems are used for human postural control. To maintain postural stability, the central nervous system keeps the center of mass (CoM) within the base of support. The influence of the stomatognathic motor system on postural control has been established under static conditions, but it has not yet been investigated during dynamic steady-state balance. The purpose of the study was to investigate the effects of controlled stomatognathic motor activity on the control and stability of the CoM during dynamic steady-state balance. A total of 48 physically active and healthy adults were assigned to three groups with different stomatognathic motor conditions: jaw clenching, tongue pressing and habitual stomatognathic behavior. Dynamic steady-state balance was assessed using an oscillating platform and the kinematic data were collected with a 3D motion capturing system. The path length (PL) of the 3D CoM trajectory was used for quantifying CoM sway. Temporal dynamics of the CoM movement was assessed with a detrended fluctuation analysis (DFA). An uncontrolled manifold (UCM) analysis was applied to assess the stability and control of the CoM with a subject-specific anthropometric 3D model. The statistical analysis revealed that the groups did not differ significantly in PL, DFA scaling exponents or UCM parameters. The results indicated that deliberate jaw clenching or tongue pressing did not seem to affect the sway, control or stability of the CoM on an oscillating platform significantly. Because of the task-specificity of balance, further research investigating the effects of stomatognathic motor activities on dynamic steady-state balance with different movement tasks are needed. Additionally, further analysis by use of muscle synergies or co-contractions may reveal effects on the level of muscles, which were not visible on the level of kinematics. This study can contribute to the understanding of postural control mechanisms, particularly in relation to stomatognathic motor activities and under dynamic conditions.
Author Fadillioglu, Cagla
Ringhof, Steffen
Möhler, Felix
Stein, Thorsten
Kanus, Lisa
Hellmann, Daniel
AuthorAffiliation 3 Department of Sport and Sport Science, University of Freiburg , Freiburg , Germany
2 Department of Prosthodontics, University of Würzburg , Würzburg , Germany
1 BioMotion Center, Institute of Sports and Sports Science, Karlsruhe Institute of Technology , Karlsruhe , Germany
4 Dental Academy for Continuing Professional Development , Karlsruhe , Germany
AuthorAffiliation_xml – name: 1 BioMotion Center, Institute of Sports and Sports Science, Karlsruhe Institute of Technology , Karlsruhe , Germany
– name: 3 Department of Sport and Sport Science, University of Freiburg , Freiburg , Germany
– name: 4 Dental Academy for Continuing Professional Development , Karlsruhe , Germany
– name: 2 Department of Prosthodontics, University of Würzburg , Würzburg , Germany
Author_xml – sequence: 1
  givenname: Cagla
  surname: Fadillioglu
  fullname: Fadillioglu, Cagla
– sequence: 2
  givenname: Lisa
  surname: Kanus
  fullname: Kanus, Lisa
– sequence: 3
  givenname: Felix
  surname: Möhler
  fullname: Möhler, Felix
– sequence: 4
  givenname: Steffen
  surname: Ringhof
  fullname: Ringhof, Steffen
– sequence: 5
  givenname: Daniel
  surname: Hellmann
  fullname: Hellmann, Daniel
– sequence: 6
  givenname: Thorsten
  surname: Stein
  fullname: Stein, Thorsten
BackLink https://www.ncbi.nlm.nih.gov/pubmed/35399352$$D View this record in MEDLINE/PubMed
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Copyright Copyright © 2022 Fadillioglu, Kanus, Möhler, Ringhof, Hellmann and Stein.
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Copyright © 2022 Fadillioglu, Kanus, Möhler, Ringhof, Hellmann and Stein. 2022 Fadillioglu, Kanus, Möhler, Ringhof, Hellmann and Stein
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Keywords Posturomed
covariation
tongue pressing
detrended fluctuation analysis
postural control
jaw clenching
UCM
masseter
Language English
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This article was submitted to Motor Neuroscience, a section of the journal Frontiers in Human Neuroscience
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SSID ssj0062651
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Snippet Multiple sensory signals from visual, somatosensory and vestibular systems are used for human postural control. To maintain postural stability, the central...
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SubjectTerms Balance
Central nervous system
Falls
Human Neuroscience
Jaw
jaw clenching
Kinematics
masseter
Mathematical models
Motor activity
Motor task performance
Muscle contraction
Physiology
postural control
Posture
Posturomed
Sensory evaluation
Statistical analysis
Tongue
tongue pressing
UCM
Vestibular system
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Title Influence of Controlled Stomatognathic Motor Activity on Sway, Control and Stability of the Center of Mass During Dynamic Steady-State Balance—An Uncontrolled Manifold Analysis
URI https://www.ncbi.nlm.nih.gov/pubmed/35399352
https://www.proquest.com/docview/2643081690
https://www.proquest.com/docview/2649254952
https://pubmed.ncbi.nlm.nih.gov/PMC8989727
https://doaj.org/article/26741f7b38a8414fa9b1026d1632e947
Volume 16
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