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Arm movements can increase leg muscle activity during submaximal recumbent stepping in neurologically intact individuals

Arm movements can increase leg muscle activity during submaximal recumbent stepping in... REFERENCES 1. ↵ Behrman AL , Harkema SJ . Locomotor training after human spinal cord injury: a series of case studies . Phys Ther 80 : 688 – 700 , 2000 . OpenUrl Abstract / FREE Full Text 2. ↵ Brocard F , Ryczko D , Fenelon K , Hatem R , Gonzales D , Auclair F , Dubuc R . The transformation of a unilateral locomotor command into a symmetrical bilateral activation in the brainstem . J Neurosci 30 : 523 – 533 , 2010 . OpenUrl Abstract / FREE Full Text 3. ↵ Bruijn SM , Meijer OG , van Dieen JH , Kingma I , Lamoth CJ . Coordination of leg swing, thorax rotations, and pelvis rotations during gait: the organisation of total body angular momentum . Gait Posture 27 : 455 – 462 , 2008 . OpenUrl CrossRef Medline Web of Science 4. ↵ Collins SH , Adamczyk PG , Kuo AD . Dynamic arm swinging in human walking . Proc Biol Sci 276 : 3679 – 3688 , 2009 . OpenUrl Abstract / FREE Full Text 5. ↵ Debaere F , Swinnen SP , Beatse E , Sunaert S , Van HP , Duysens J . Brain areas involved in interlimb coordination: a distributed network . Neuroimage 14 : 947 – 958 , 2001 . OpenUrl CrossRef Medline Web of Science 6. ↵ Dietz V . Do human bipeds use quadrupedal coordination? Trends Neurosci 25 : 462 – 467 , 2002 . OpenUrl CrossRef Medline Web of Science 7. ↵ Dietz V , Fouad K , Bastiaanse CM . Neuronal coordination of arm and leg movements during human locomotion . Eur J Neurosci 14 : 1906 – 1914 , 2001 . OpenUrl CrossRef Medline Web of Science 8. ↵ Dietz V , Michel J . Human bipeds use quadrupedal coordination during locomotion . Ann NY Acad Sci 1164 : 97 – 103 , 2009 . OpenUrl CrossRef Medline Web of Science 9. ↵ Eke-Okoro ST , Gregoric M , Larsson LE . Alterations in gait resulting from deliberate changes of arm-swing amplitude and phase . Clin Biomech (Bristol, Avon) 12 : 516 – 521 , 1997 . OpenUrl CrossRef Medline 10. ↵ Grin L , Frank J , Allum JH . The effect of voluntary arm abduction on balance recovery following multidirectional stance perturbations . Exp Brain Res 178 : 62 – 78 , 2007 . OpenUrl CrossRef Medline Web of Science 11. ↵ Haridas C , Zehr EP . Coordinated interlimb compensatory responses to electrical stimulation of cutaneous nerves in the hand and foot during walking . J Neurophysiol 90 : 2850 – 2861 , 2003 . OpenUrl Abstract / FREE Full Text 12. ↵ Hiraoka K , Taniguchi Y . The effect of immobilization of the head and trunk on arm-cycling-induced depression of soleus motoneuron pool excitability . Somatosens Mot Res 27 : 28 – 33 , 2010 . OpenUrl CrossRef Medline 13. ↵ Huang HJ , Ferris DP . Neural coupling between upper and lower limbs during recumbent stepping . J Appl Physiol 97 : 1299 – 1308 , 2004 . OpenUrl Abstract / FREE Full Text 14. ↵ Huang HJ , Ferris DP . Upper and lower limb muscle activation is bidirectionally and ipsilaterally coupled . Med Sci Sports Exerc 41 : 1778 – 1789 , 2009 . OpenUrl CrossRef Medline Web of Science 15. ↵ Huang HJ , Ferris DP . Upper limb effort does not increase maximal voluntary muscle activation in individuals with incomplete spinal cord injury . Clin Neurophysiol 120 : 1741 – 1749 , 2009 . OpenUrl CrossRef Medline 16. ↵ Hundza SR , Zehr EP . Suppression of soleus H-reflex amplitude is graded with frequency of rhythmic arm cycling . Exp Brain Res 193 : 297 – 306 , 2009 . OpenUrl CrossRef Medline Web of Science 17. ↵ Kao PC , Ferris DP . The effect of movement frequency on interlimb coupling during recumbent stepping . Motor Control 9 : 144 – 163 , 2005 . OpenUrl Medline Web of Science 18. ↵ Kawashima N , Nozaki D , Abe MO , Nakazawa K . Shaping appropriate locomotive motor output through interlimb neural pathway within spinal cord in humans . J Neurophysiol 99 : 2946 – 2955 , 2008 . OpenUrl Abstract / FREE Full Text 19. ↵ Kloter E , Wirz M , Dietz V . Locomotion in stroke subjects: interactions between unaffected and affected sides . Brain 134 : 721 – 731 , 2011 . OpenUrl Abstract / FREE Full Text 20. ↵ Michel J , van Hedel HJ , Dietz V . Obstacle stepping involves spinal anticipatory activity associated with quadrupedal limb coordination . Eur J Neurosci 27 : 1867 – 1875 , 2008 . OpenUrl CrossRef Medline Web of Science 21. ↵ Stephenson JL , De Serres SJ , Lamontagne A . The effect of arm movements on lower limb muscle activation during gait in healthy individuals . Exp Brain Res 29 : 11 – 16 , 2009 . OpenUrl 22. ↵ Stephenson JL , De Serres SJ , Lamontagne A . The effect of arm movements on the lower limb during gait after a stroke . Gait Posture 31 : 109 – 115 , 2010 . OpenUrl CrossRef Medline Web of Science 23. ↵ Swinnen SP . Intermanual coordination: from behavioural principles to neural-network interactions . Nat Rev Neurosci 3 : 348 – 359 , 2002 . OpenUrl CrossRef Medline 24. ↵ Umberger BR . Effects of suppressing arm swing on kinematics, kinetics, and energetics of human walking . J Biomech 41 : 2575 – 2580 , 2008 . OpenUrl CrossRef Medline Web of Science 25. ↵ Visintin M , Barbeau H . The effects of parallel bars, body weight support and speed on the modulation of the locomotor pattern of spastic paretic gait. A preliminary communication . Paraplegia 32 : 540 – 553 , 1994 . OpenUrl Medline Web of Science 26. ↵ Zehr EP , Balter JE , Ferris DP , Hundza SR , Loadman PM , Stoloff RH . Neural regulation of rhythmic arm and leg movement is conserved across human locomotor tasks . J Physiol 582 : 209 – 227 , 2007 . OpenUrl Abstract / FREE Full Text 27. ↵ Zehr EP , Collins DF , Chua R . Human interlimb reflexes evoked by electrical stimulation of cutaneous nerves innervating the hand and foot . Exp Brain Res 140 : 495 – 504 , 2001 . OpenUrl CrossRef Medline Web of Science 28. ↵ Zehr EP , Stein RB . What functions do reflexes serve during human locomotion? Prog Neurobiol 58 : 185 – 205 , 1999 . OpenUrl CrossRef Medline Web of Science Previous Next Back to top About the Cover About the Cover Table of Contents Ed Board (PDF) Article Abstract METHODS RESULTS DISCUSSION GRANTS DISCLOSURES AUTHOR CONTRIBUTIONS REFERENCES Figures & Data Info PDF Alert me when this article is cited Alert me if a correction is posted Email Thank you for your interest in spreading the word on Journal of Applied Physiology. NOTE: We only request your email address so that the person you are recommending the page to knows that you wanted them to see it, and that it is not junk mail. We do not capture any email address. Your Email * Your Name * Send To * Enter multiple addresses on separate lines or separate them with commas. You are going to email the following Arm movements can increase leg muscle activity during submaximal recumbent stepping in neurologically intact individuals Message Subject (Your Name) has sent you a message from Journal of Applied Physiology Message Body (Your Name) thought you would like to see the Journal of Applied Physiology web site. Your Personal Message Print Citation Tools Arm movements can increase leg muscle activity during submaximal recumbent stepping in neurologically intact individuals Digna de Kam , Hennie Rijken , Toos Manintveld , Bart Nienhuis , Volker Dietz , Jacques Duysens Journal of Applied Physiology Jul 2013, 115 (1) 34-42; DOI: 10.1152/japplphysiol.00510.2012 Citation Manager Formats BibTeX EndNote (tagged) EndNote 8 (xml) RefWorks Tagged RIS Medlars Bookends Mendeley Request Permissions Share Arm movements can increase leg muscle activity during submaximal recumbent stepping in neurologically intact individuals Digna de Kam , Hennie Rijken , Toos Manintveld , Bart Nienhuis , Volker Dietz , Jacques Duysens Journal of Applied Physiology Jul 2013, 115 (1) 34-42; DOI: 10.1152/japplphysiol.00510.2012 Permalink: Copy View Full Page PDF Tweet Widget Facebook Like Google Plus One Reddit CiteULike Mendeley StumbleUpon More in this TOC Section The effect of rowing ergometry and resistive exercise on skeletal muscle structure and function during bed rest Age-related structural alterations in human skeletal muscle fibers and mitochondria are sex specific: relationship to single-fiber function The effect of spaceflight on mouse olfactory bulb volume, neurogenesis, and cell death indicates the protective effect of novel environment Show more Articles Related Articles No related articles found. Web of Science Scopus PubMed Google Scholar Cited By... Restoration of sensorimotor functions after spinal cord injury Abstract Fulltext PDF Web of Science (3) Google Scholar Most Cited Most Read A new method for detecting anaerobic threshold by gas exchange Calculation of percentage changes in volumes of blood, plasma, and red cells in dehydration. Calculation of substrate oxidation rates in vivo from gaseous exchange A method for measuring horizontal and vertical eye movement chronically in the monkey. Adaptations of skeletal muscle to endurance exercise and their metabolic consequences More... Featured Articles Featured Podcasts Match maker: how to compare thermoregulatory responses in groups of different body mass and surface area Selecting the correct exercise intensity for unbiased comparisons of thermoregulatory responses between groups of different mass and surface area GA_googleFillSlot("jap_tower_right_160x600"); Navigate Current Issue Articles in Press Archives Feedback Submit Subscribe Personal Alerts More Information About this Journal Information for Authors Submit a Manuscript Press Advertising AuthorChoice Calls for Papers Ethical Policies PubMed Central Policy Reprints and Permissions Institutional Administrators American Physiological Society Journals Cell Physiology Advances in Physiology Education Comprehensive Physiology Endocrinology and Metabolism Gastrointestinal and Liver Physiology Heart and Circulatory Physiology Journal of Applied Physiology Journal of Neurophysiology Lung Cellular and Molecular Physiology Physiological Genomics Physiological Review Physiology Regulatory, Integrative and Comparative Physiology Renal Physiology Physiological Reports Legacy Content APS Select www.physiology.org Copyright © 2014 The American Physiological Society | Print ISSN: 8750-7587 | Online ISSN: 1522-1601 http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png Journal of Applied Physiology The American Physiological Society

Arm movements can increase leg muscle activity during submaximal recumbent stepping in neurologically intact individuals

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Publisher
The American Physiological Society
Copyright
Copyright © 2013 the American Physiological Society
ISSN
8750-7587
eISSN
1522-1601
DOI
10.1152/japplphysiol.00510.2012
pmid
23661622
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Abstract

REFERENCES 1. ↵ Behrman AL , Harkema SJ . Locomotor training after human spinal cord injury: a series of case studies . Phys Ther 80 : 688 – 700 , 2000 . OpenUrl Abstract / FREE Full Text 2. ↵ Brocard F , Ryczko D , Fenelon K , Hatem R , Gonzales D , Auclair F , Dubuc R . The transformation of a unilateral locomotor command into a symmetrical bilateral activation in the brainstem . J Neurosci 30 : 523 – 533 , 2010 . OpenUrl Abstract / FREE Full Text 3. ↵ Bruijn SM , Meijer OG , van Dieen JH , Kingma I , Lamoth CJ . Coordination of leg swing, thorax rotations, and pelvis rotations during gait: the organisation of total body angular momentum . Gait Posture 27 : 455 – 462 , 2008 . OpenUrl CrossRef Medline Web of Science 4. ↵ Collins SH , Adamczyk PG , Kuo AD . Dynamic arm swinging in human walking . Proc Biol Sci 276 : 3679 – 3688 , 2009 . OpenUrl Abstract / FREE Full Text 5. ↵ Debaere F , Swinnen SP , Beatse E , Sunaert S , Van HP , Duysens J . Brain areas involved in interlimb coordination: a distributed network . Neuroimage 14 : 947 – 958 , 2001 . OpenUrl CrossRef Medline Web of Science 6. ↵ Dietz V . Do human bipeds use quadrupedal coordination? Trends Neurosci 25 : 462 – 467 , 2002 . OpenUrl CrossRef Medline Web of Science 7. ↵ Dietz V , Fouad K , Bastiaanse CM . Neuronal coordination of arm and leg movements during human locomotion . Eur J Neurosci 14 : 1906 – 1914 , 2001 . OpenUrl CrossRef Medline Web of Science 8. ↵ Dietz V , Michel J . Human bipeds use quadrupedal coordination during locomotion . Ann NY Acad Sci 1164 : 97 – 103 , 2009 . OpenUrl CrossRef Medline Web of Science 9. ↵ Eke-Okoro ST , Gregoric M , Larsson LE . Alterations in gait resulting from deliberate changes of arm-swing amplitude and phase . Clin Biomech (Bristol, Avon) 12 : 516 – 521 , 1997 . OpenUrl CrossRef Medline 10. ↵ Grin L , Frank J , Allum JH . The effect of voluntary arm abduction on balance recovery following multidirectional stance perturbations . Exp Brain Res 178 : 62 – 78 , 2007 . OpenUrl CrossRef Medline Web of Science 11. ↵ Haridas C , Zehr EP . Coordinated interlimb compensatory responses to electrical stimulation of cutaneous nerves in the hand and foot during walking . J Neurophysiol 90 : 2850 – 2861 , 2003 . OpenUrl Abstract / FREE Full Text 12. ↵ Hiraoka K , Taniguchi Y . The effect of immobilization of the head and trunk on arm-cycling-induced depression of soleus motoneuron pool excitability . Somatosens Mot Res 27 : 28 – 33 , 2010 . OpenUrl CrossRef Medline 13. ↵ Huang HJ , Ferris DP . Neural coupling between upper and lower limbs during recumbent stepping . J Appl Physiol 97 : 1299 – 1308 , 2004 . OpenUrl Abstract / FREE Full Text 14. ↵ Huang HJ , Ferris DP . Upper and lower limb muscle activation is bidirectionally and ipsilaterally coupled . Med Sci Sports Exerc 41 : 1778 – 1789 , 2009 . OpenUrl CrossRef Medline Web of Science 15. ↵ Huang HJ , Ferris DP . Upper limb effort does not increase maximal voluntary muscle activation in individuals with incomplete spinal cord injury . Clin Neurophysiol 120 : 1741 – 1749 , 2009 . OpenUrl CrossRef Medline 16. ↵ Hundza SR , Zehr EP . Suppression of soleus H-reflex amplitude is graded with frequency of rhythmic arm cycling . Exp Brain Res 193 : 297 – 306 , 2009 . OpenUrl CrossRef Medline Web of Science 17. ↵ Kao PC , Ferris DP . The effect of movement frequency on interlimb coupling during recumbent stepping . Motor Control 9 : 144 – 163 , 2005 . OpenUrl Medline Web of Science 18. ↵ Kawashima N , Nozaki D , Abe MO , Nakazawa K . Shaping appropriate locomotive motor output through interlimb neural pathway within spinal cord in humans . J Neurophysiol 99 : 2946 – 2955 , 2008 . OpenUrl Abstract / FREE Full Text 19. ↵ Kloter E , Wirz M , Dietz V . Locomotion in stroke subjects: interactions between unaffected and affected sides . Brain 134 : 721 – 731 , 2011 . OpenUrl Abstract / FREE Full Text 20. ↵ Michel J , van Hedel HJ , Dietz V . Obstacle stepping involves spinal anticipatory activity associated with quadrupedal limb coordination . Eur J Neurosci 27 : 1867 – 1875 , 2008 . OpenUrl CrossRef Medline Web of Science 21. ↵ Stephenson JL , De Serres SJ , Lamontagne A . The effect of arm movements on lower limb muscle activation during gait in healthy individuals . Exp Brain Res 29 : 11 – 16 , 2009 . OpenUrl 22. ↵ Stephenson JL , De Serres SJ , Lamontagne A . The effect of arm movements on the lower limb during gait after a stroke . Gait Posture 31 : 109 – 115 , 2010 . OpenUrl CrossRef Medline Web of Science 23. ↵ Swinnen SP . Intermanual coordination: from behavioural principles to neural-network interactions . Nat Rev Neurosci 3 : 348 – 359 , 2002 . OpenUrl CrossRef Medline 24. ↵ Umberger BR . Effects of suppressing arm swing on kinematics, kinetics, and energetics of human walking . J Biomech 41 : 2575 – 2580 , 2008 . OpenUrl CrossRef Medline Web of Science 25. ↵ Visintin M , Barbeau H . The effects of parallel bars, body weight support and speed on the modulation of the locomotor pattern of spastic paretic gait. A preliminary communication . Paraplegia 32 : 540 – 553 , 1994 . OpenUrl Medline Web of Science 26. ↵ Zehr EP , Balter JE , Ferris DP , Hundza SR , Loadman PM , Stoloff RH . Neural regulation of rhythmic arm and leg movement is conserved across human locomotor tasks . J Physiol 582 : 209 – 227 , 2007 . OpenUrl Abstract / FREE Full Text 27. ↵ Zehr EP , Collins DF , Chua R . Human interlimb reflexes evoked by electrical stimulation of cutaneous nerves innervating the hand and foot . Exp Brain Res 140 : 495 – 504 , 2001 . OpenUrl CrossRef Medline Web of Science 28. ↵ Zehr EP , Stein RB . What functions do reflexes serve during human locomotion? Prog Neurobiol 58 : 185 – 205 , 1999 . OpenUrl CrossRef Medline Web of Science Previous Next Back to top About the Cover About the Cover Table of Contents Ed Board (PDF) Article Abstract METHODS RESULTS DISCUSSION GRANTS DISCLOSURES AUTHOR CONTRIBUTIONS REFERENCES Figures & Data Info PDF Alert me when this article is cited Alert me if a correction is posted Email Thank you for your interest in spreading the word on Journal of Applied Physiology. NOTE: We only request your email address so that the person you are recommending the page to knows that you wanted them to see it, and that it is not junk mail. We do not capture any email address. Your Email * Your Name * Send To * Enter multiple addresses on separate lines or separate them with commas. You are going to email the following Arm movements can increase leg muscle activity during submaximal recumbent stepping in neurologically intact individuals Message Subject (Your Name) has sent you a message from Journal of Applied Physiology Message Body (Your Name) thought you would like to see the Journal of Applied Physiology web site. Your Personal Message Print Citation Tools Arm movements can increase leg muscle activity during submaximal recumbent stepping in neurologically intact individuals Digna de Kam , Hennie Rijken , Toos Manintveld , Bart Nienhuis , Volker Dietz , Jacques Duysens Journal of Applied Physiology Jul 2013, 115 (1) 34-42; DOI: 10.1152/japplphysiol.00510.2012 Citation Manager Formats BibTeX EndNote (tagged) EndNote 8 (xml) RefWorks Tagged RIS Medlars Bookends Mendeley Request Permissions Share Arm movements can increase leg muscle activity during submaximal recumbent stepping in neurologically intact individuals Digna de Kam , Hennie Rijken , Toos Manintveld , Bart Nienhuis , Volker Dietz , Jacques Duysens Journal of Applied Physiology Jul 2013, 115 (1) 34-42; DOI: 10.1152/japplphysiol.00510.2012 Permalink: Copy View Full Page PDF Tweet Widget Facebook Like Google Plus One Reddit CiteULike Mendeley StumbleUpon More in this TOC Section The effect of rowing ergometry and resistive exercise on skeletal muscle structure and function during bed rest Age-related structural alterations in human skeletal muscle fibers and mitochondria are sex specific: relationship to single-fiber function The effect of spaceflight on mouse olfactory bulb volume, neurogenesis, and cell death indicates the protective effect of novel environment Show more Articles Related Articles No related articles found. Web of Science Scopus PubMed Google Scholar Cited By... Restoration of sensorimotor functions after spinal cord injury Abstract Fulltext PDF Web of Science (3) Google Scholar Most Cited Most Read A new method for detecting anaerobic threshold by gas exchange Calculation of percentage changes in volumes of blood, plasma, and red cells in dehydration. Calculation of substrate oxidation rates in vivo from gaseous exchange A method for measuring horizontal and vertical eye movement chronically in the monkey. Adaptations of skeletal muscle to endurance exercise and their metabolic consequences More... Featured Articles Featured Podcasts Match maker: how to compare thermoregulatory responses in groups of different body mass and surface area Selecting the correct exercise intensity for unbiased comparisons of thermoregulatory responses between groups of different mass and surface area GA_googleFillSlot("jap_tower_right_160x600"); Navigate Current Issue Articles in Press Archives Feedback Submit Subscribe Personal Alerts More Information About this Journal Information for Authors Submit a Manuscript Press Advertising AuthorChoice Calls for Papers Ethical Policies PubMed Central Policy Reprints and Permissions Institutional Administrators American Physiological Society Journals Cell Physiology Advances in Physiology Education Comprehensive Physiology Endocrinology and Metabolism Gastrointestinal and Liver Physiology Heart and Circulatory Physiology Journal of Applied Physiology Journal of Neurophysiology Lung Cellular and Molecular Physiology Physiological Genomics Physiological Review Physiology Regulatory, Integrative and Comparative Physiology Renal Physiology Physiological Reports Legacy Content APS Select www.physiology.org Copyright © 2014 The American Physiological Society | Print ISSN: 8750-7587 | Online ISSN: 1522-1601

Journal

Journal of Applied PhysiologyThe American Physiological Society

Published: Jul 1, 2013

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