Involuntary paretic wrist/finger flexion forces and EMG increase with shoulder abduction load in individuals with chronic stroke
► For the first time, the paretic wrist and fingers of individuals with chronic hemiparetic stroke were investigated within the context of the upper extremity flexion synergy instead of in isolation. ► Involuntary paretic wrist and finger flexion forces and EMG were generated in proportion to descen...
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| Published in | Clinical neurophysiology Vol. 123; no. 6; pp. 1216 - 1225 |
|---|---|
| Main Authors | , |
| Format | Journal Article |
| Language | English |
| Published |
Oxford
Elsevier Ireland Ltd
01.06.2012
Elsevier |
| Subjects | |
| Online Access | Get full text |
| ISSN | 1388-2457 1872-8952 1872-8952 |
| DOI | 10.1016/j.clinph.2012.01.009 |
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| Abstract | ► For the first time, the paretic wrist and fingers of individuals with chronic hemiparetic stroke were investigated within the context of the upper extremity flexion synergy instead of in isolation. ► Involuntary paretic wrist and finger flexion forces and EMG were generated in proportion to descending motor drive requirements, modulated in this study by six levels of shoulder abduction torque and by forward reaching. ► Results support the hypothesis of an increased influence of bulbospinal motor pathways following stroke and suggest that activation of the proximal upper limb must be considered when seeking to understand, rehabilitate, or develop devices to assist the paretic hand.
Clinical observations of the flexion synergy in individuals with chronic hemiparetic stroke describe coupling of shoulder, elbow, wrist, and finger joints. Yet, experimental quantification of the synergy within a shoulder abduction (SABD) loading paradigm has focused only on shoulder and elbow joints. The paretic wrist and fingers have typically been studied in isolation. Therefore, this study quantified involuntary behavior of paretic wrist and fingers during concurrent activation of shoulder and elbow.
Eight individuals with chronic moderate-to-severe hemiparesis and four controls participated. Isometric wrist/finger and thumb flexion forces and wrist/finger flexor and extensor electromyograms (EMG) were measured at two positions when lifting the arm: in front of the torso and at maximal reaching distance. The task was completed in the ACT3D robotic device with six SABD loads by paretic, non-paretic, and control limbs.
Considerable forces and EMG were generated during lifting of the paretic arm only, and they progressively increased with SABD load. Additionally, the forces were greater at the maximal reach position than at the position front of the torso.
Flexion of paretic wrist and fingers is involuntarily coupled with certain shoulder and elbow movements.
Activation of the proximal upper limb must be considered when seeking to understand, rehabilitate, or develop devices to assist the paretic hand. |
|---|---|
| AbstractList | Highlights ► For the first time, the paretic wrist and fingers of individuals with chronic hemiparetic stroke were investigated within the context of the upper extremity flexion synergy instead of in isolation. ► Involuntary paretic wrist and finger flexion forces and EMG were generated in proportion to descending motor drive requirements, modulated in this study by six levels of shoulder abduction torque and by forward reaching. ► Results support the hypothesis of an increased influence of bulbospinal motor pathways following stroke and suggest that activation of the proximal upper limb must be considered when seeking to understand, rehabilitate, or develop devices to assist the paretic hand. ► For the first time, the paretic wrist and fingers of individuals with chronic hemiparetic stroke were investigated within the context of the upper extremity flexion synergy instead of in isolation. ► Involuntary paretic wrist and finger flexion forces and EMG were generated in proportion to descending motor drive requirements, modulated in this study by six levels of shoulder abduction torque and by forward reaching. ► Results support the hypothesis of an increased influence of bulbospinal motor pathways following stroke and suggest that activation of the proximal upper limb must be considered when seeking to understand, rehabilitate, or develop devices to assist the paretic hand. Clinical observations of the flexion synergy in individuals with chronic hemiparetic stroke describe coupling of shoulder, elbow, wrist, and finger joints. Yet, experimental quantification of the synergy within a shoulder abduction (SABD) loading paradigm has focused only on shoulder and elbow joints. The paretic wrist and fingers have typically been studied in isolation. Therefore, this study quantified involuntary behavior of paretic wrist and fingers during concurrent activation of shoulder and elbow. Eight individuals with chronic moderate-to-severe hemiparesis and four controls participated. Isometric wrist/finger and thumb flexion forces and wrist/finger flexor and extensor electromyograms (EMG) were measured at two positions when lifting the arm: in front of the torso and at maximal reaching distance. The task was completed in the ACT3D robotic device with six SABD loads by paretic, non-paretic, and control limbs. Considerable forces and EMG were generated during lifting of the paretic arm only, and they progressively increased with SABD load. Additionally, the forces were greater at the maximal reach position than at the position front of the torso. Flexion of paretic wrist and fingers is involuntarily coupled with certain shoulder and elbow movements. Activation of the proximal upper limb must be considered when seeking to understand, rehabilitate, or develop devices to assist the paretic hand. Clinical observations of the flexion synergy in individuals with chronic hemiparetic stroke describe coupling of shoulder, elbow, wrist, and finger joints. Yet, experimental quantification of the synergy within a shoulder abduction (SABD) loading paradigm has focused only on shoulder and elbow joints. The paretic wrist and fingers have typically been studied in isolation. Therefore, this study quantified involuntary behavior of paretic wrist and fingers during concurrent activation of shoulder and elbow.OBJECTIVEClinical observations of the flexion synergy in individuals with chronic hemiparetic stroke describe coupling of shoulder, elbow, wrist, and finger joints. Yet, experimental quantification of the synergy within a shoulder abduction (SABD) loading paradigm has focused only on shoulder and elbow joints. The paretic wrist and fingers have typically been studied in isolation. Therefore, this study quantified involuntary behavior of paretic wrist and fingers during concurrent activation of shoulder and elbow.Eight individuals with chronic moderate-to-severe hemiparesis and four controls participated. Isometric wrist/finger and thumb flexion forces and wrist/finger flexor and extensor electromyograms (EMG) were measured at two positions when lifting the arm: in front of the torso and at maximal reaching distance. The task was completed in the ACT(3D) robotic device with six SABD loads by paretic, non-paretic, and control limbs.METHODSEight individuals with chronic moderate-to-severe hemiparesis and four controls participated. Isometric wrist/finger and thumb flexion forces and wrist/finger flexor and extensor electromyograms (EMG) were measured at two positions when lifting the arm: in front of the torso and at maximal reaching distance. The task was completed in the ACT(3D) robotic device with six SABD loads by paretic, non-paretic, and control limbs.Considerable forces and EMG were generated during lifting of the paretic arm only, and they progressively increased with SABD load. Additionally, the forces were greater at the maximal reach position than at the position front of the torso.RESULTSConsiderable forces and EMG were generated during lifting of the paretic arm only, and they progressively increased with SABD load. Additionally, the forces were greater at the maximal reach position than at the position front of the torso.Flexion of paretic wrist and fingers is involuntarily coupled with certain shoulder and elbow movements.CONCLUSIONSFlexion of paretic wrist and fingers is involuntarily coupled with certain shoulder and elbow movements.Activation of the proximal upper limb must be considered when seeking to understand, rehabilitate, or develop devices to assist the paretic hand.SIGNIFICANCEActivation of the proximal upper limb must be considered when seeking to understand, rehabilitate, or develop devices to assist the paretic hand. Clinical observations of the flexion synergy in individuals with chronic hemiparetic stroke describe coupling of shoulder, elbow, wrist, and finger joints. Yet, experimental quantification of the synergy within a shoulder abduction (SABD) loading paradigm has focused only on shoulder and elbow joints. The paretic wrist and fingers have typically been studied in isolation. Therefore, this study quantified involuntary behavior of paretic wrist and fingers during concurrent activation of shoulder and elbow. Eight individuals with chronic moderate-to-severe hemiparesis and four controls participated. Isometric wrist/finger and thumb flexion forces and wrist/finger flexor and extensor electromyograms (EMG) were measured at two positions when lifting the arm: in front of the torso and at maximal reaching distance. The task was completed in the ACT(3D) robotic device with six SABD loads by paretic, non-paretic, and control limbs. Considerable forces and EMG were generated during lifting of the paretic arm only, and they progressively increased with SABD load. Additionally, the forces were greater at the maximal reach position than at the position front of the torso. Flexion of paretic wrist and fingers is involuntarily coupled with certain shoulder and elbow movements. Activation of the proximal upper limb must be considered when seeking to understand, rehabilitate, or develop devices to assist the paretic hand. |
| Author | Miller, Laura C. Dewald, Julius P.A. |
| AuthorAffiliation | d Department of Physical Medicine and Rehabilitation, The Feinberg School of Medicine, Northwestern University, Chicago, IL, USA b Department of Physical Therapy and Human Movement Sciences, The Feinberg School of Medicine, Northwestern University, Chicago, IL, USA a Department of Biomedical Engineering, Northwestern University, Chicago, IL, USA c Interdepartmental Neuroscience Program, Northwestern University, Chicago, IL, USA |
| AuthorAffiliation_xml | – name: d Department of Physical Medicine and Rehabilitation, The Feinberg School of Medicine, Northwestern University, Chicago, IL, USA – name: c Interdepartmental Neuroscience Program, Northwestern University, Chicago, IL, USA – name: b Department of Physical Therapy and Human Movement Sciences, The Feinberg School of Medicine, Northwestern University, Chicago, IL, USA – name: a Department of Biomedical Engineering, Northwestern University, Chicago, IL, USA |
| Author_xml | – sequence: 1 givenname: Laura C. surname: Miller fullname: Miller, Laura C. organization: Department of Biomedical Engineering, Northwestern University, Chicago, IL, USA – sequence: 2 givenname: Julius P.A. surname: Dewald fullname: Dewald, Julius P.A. email: j-dewald@northwestern.edu organization: Department of Biomedical Engineering, Northwestern University, Chicago, IL, USA |
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| Keywords | Stroke Synergy Rehabilitation Upper extremity Hand Robotics Motor system disorder Force Concurrent Electrophysiology Cardiovascular disease Synergism Vascular disease Osteoarticular system Wrist Shoulder Electromyography Behavior Coupling Neurological disorder Cerebrovascular disease Hemiparesis Nervous system diseases Load Thumb Joint Cerebral disorder Chronic Central nervous system disease |
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| Snippet | ► For the first time, the paretic wrist and fingers of individuals with chronic hemiparetic stroke were investigated within the context of the upper extremity... Highlights ► For the first time, the paretic wrist and fingers of individuals with chronic hemiparetic stroke were investigated within the context of the upper... Clinical observations of the flexion synergy in individuals with chronic hemiparetic stroke describe coupling of shoulder, elbow, wrist, and finger joints.... |
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| SubjectTerms | Aged Biological and medical sciences Electrodiagnosis. Electric activity recording Electromyography Female Fingers - physiopathology Hand Humans Investigative techniques, diagnostic techniques (general aspects) Male Medical sciences Middle Aged Movement - physiology Muscle Contraction - physiology Muscle, Skeletal - physiopathology Nervous system Neurology Paresis - etiology Paresis - physiopathology Rehabilitation Robotics Shoulder - physiopathology Stroke Stroke - complications Stroke - physiopathology Synergy Upper extremity Vascular diseases and vascular malformations of the nervous system Weight-Bearing - physiology Wrist - physiopathology |
| Title | Involuntary paretic wrist/finger flexion forces and EMG increase with shoulder abduction load in individuals with chronic stroke |
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