Slowed Down: Response Time Deficits in Well-Recovered Subjects With Incomplete Spinal Cord Injury

To quantify remaining motor deficits in well-recovered subjects with incomplete spinal cord injury. Case-control study. Spinal cord injury center of a university hospital. Out of a volunteer sample, we recruited 15 subjects with incomplete paraplegia (mean age, 50y; 67% men; neurologic level from T4...

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Published inArchives of physical medicine and rehabilitation Vol. 94; no. 10; pp. 2020 - 2026
Main Authors Labruyère, Rob, Zimmerli, Marion, van Hedel, Hubertus J.
Format Journal Article
LanguageEnglish
Published United States Elsevier Inc 01.10.2013
Subjects
Electromyography
Evoked Potentials, Motor - physiology
Female
Gait - physiology
Hospitals, University
Humans
Male
Middle Aged
Muscle, Skeletal - physiopathology
Neurophysiology
Paralysis - etiology
Paralysis - physiopathology
Paraplegia
Physical Medicine and Rehabilitation
Reaction time
Reaction Time - physiology
Rehabilitation
Spinal Cord Injuries - complications
Transcranial magnetic stimulation
Visual Acuity
Walking - physiology
iSCI
Transcranial magnetic stimulation
TUG
LED
MWUT
TA
Neurophysiology
Paraplegia
ASIA
Reaction time
SCI
MEP
Rehabilitation
TMS
EMG
spinal cord injury
motor-evoked potential
incomplete SCI
electromyogram
tibialis anterior
Mann-Whitney U test
American Spinal Injury Association
light-emitting diode
Timed Up and Go Test
Online AccessGet full text
ISSN0003-9993
1532-821X
1532-821X
DOI10.1016/j.apmr.2013.04.002

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Abstract To quantify remaining motor deficits in well-recovered subjects with incomplete spinal cord injury. Case-control study. Spinal cord injury center of a university hospital. Out of a volunteer sample, we recruited 15 subjects with incomplete paraplegia (mean age, 50y; 67% men; neurologic level from T4 to L4; mean time since injury, 6.3y) and close-to-normal walking pattern. They were compared with 15 age- and sex-matched controls. Not applicable. Response time and its 4 subparts, processing time, conduction time, motor time, and movement time. These were assessed with an electromyogram-supported lower-limb response time task and single-pulse transcranial magnetic stimulation to measure the motor-evoked potential latency of the M. tibialis anterior. In addition, participants were tested for lower-extremity muscle strength, gait capacity, visual acuity, and upper-extremity response time. Well-recovered subjects with incomplete paraplegia still suffered from deficits in conduction and movement time, whereas their processing and motor times were essentially normal. In addition, these patients showed delayed movement times of the upper limb, even if their injury was located in the thoracic or lumbar region. Well-recovered patients with incomplete paraplegia still experience difficulties with quick and accurate movements. Furthermore, combining transcranial magnetic stimulation, electromyogram, and a response time task proved useful for investigating deficits in executing fast and accurate movements.
AbstractList To quantify remaining motor deficits in well-recovered subjects with incomplete spinal cord injury. Case-control study. Spinal cord injury center of a university hospital. Out of a volunteer sample, we recruited 15 subjects with incomplete paraplegia (mean age, 50y; 67% men; neurologic level from T4 to L4; mean time since injury, 6.3y) and close-to-normal walking pattern. They were compared with 15 age- and sex-matched controls. Not applicable. Response time and its 4 subparts, processing time, conduction time, motor time, and movement time. These were assessed with an electromyogram-supported lower-limb response time task and single-pulse transcranial magnetic stimulation to measure the motor-evoked potential latency of the M. tibialis anterior. In addition, participants were tested for lower-extremity muscle strength, gait capacity, visual acuity, and upper-extremity response time. Well-recovered subjects with incomplete paraplegia still suffered from deficits in conduction and movement time, whereas their processing and motor times were essentially normal. In addition, these patients showed delayed movement times of the upper limb, even if their injury was located in the thoracic or lumbar region. Well-recovered patients with incomplete paraplegia still experience difficulties with quick and accurate movements. Furthermore, combining transcranial magnetic stimulation, electromyogram, and a response time task proved useful for investigating deficits in executing fast and accurate movements.
Abstract Objective To quantify remaining motor deficits in well-recovered subjects with incomplete spinal cord injury. Design Case-control study. Setting Spinal cord injury center of a university hospital. Participants Out of a volunteer sample, we recruited 15 subjects with incomplete paraplegia (mean age, 50y; 67% men; neurologic level from T4 to L4; mean time since injury, 6.3y) and close-to-normal walking pattern. They were compared with 15 age- and sex-matched controls. Interventions Not applicable. Main Outcome Measures Response time and its 4 subparts, processing time, conduction time, motor time, and movement time. These were assessed with an electromyogram-supported lower-limb response time task and single-pulse transcranial magnetic stimulation to measure the motor-evoked potential latency of the M. tibialis anterior. In addition, participants were tested for lower-extremity muscle strength, gait capacity, visual acuity, and upper-extremity response time. Results Well-recovered subjects with incomplete paraplegia still suffered from deficits in conduction and movement time, whereas their processing and motor times were essentially normal. In addition, these patients showed delayed movement times of the upper limb, even if their injury was located in the thoracic or lumbar region. Conclusions Well-recovered patients with incomplete paraplegia still experience difficulties with quick and accurate movements. Furthermore, combining transcranial magnetic stimulation, electromyogram, and a response time task proved useful for investigating deficits in executing fast and accurate movements.
To quantify remaining motor deficits in well-recovered subjects with incomplete spinal cord injury.OBJECTIVETo quantify remaining motor deficits in well-recovered subjects with incomplete spinal cord injury.Case-control study.DESIGNCase-control study.Spinal cord injury center of a university hospital.SETTINGSpinal cord injury center of a university hospital.Out of a volunteer sample, we recruited 15 subjects with incomplete paraplegia (mean age, 50y; 67% men; neurologic level from T4 to L4; mean time since injury, 6.3y) and close-to-normal walking pattern. They were compared with 15 age- and sex-matched controls.PARTICIPANTSOut of a volunteer sample, we recruited 15 subjects with incomplete paraplegia (mean age, 50y; 67% men; neurologic level from T4 to L4; mean time since injury, 6.3y) and close-to-normal walking pattern. They were compared with 15 age- and sex-matched controls.Not applicable.INTERVENTIONSNot applicable.Response time and its 4 subparts, processing time, conduction time, motor time, and movement time. These were assessed with an electromyogram-supported lower-limb response time task and single-pulse transcranial magnetic stimulation to measure the motor-evoked potential latency of the M. tibialis anterior. In addition, participants were tested for lower-extremity muscle strength, gait capacity, visual acuity, and upper-extremity response time.MAIN OUTCOME MEASURESResponse time and its 4 subparts, processing time, conduction time, motor time, and movement time. These were assessed with an electromyogram-supported lower-limb response time task and single-pulse transcranial magnetic stimulation to measure the motor-evoked potential latency of the M. tibialis anterior. In addition, participants were tested for lower-extremity muscle strength, gait capacity, visual acuity, and upper-extremity response time.Well-recovered subjects with incomplete paraplegia still suffered from deficits in conduction and movement time, whereas their processing and motor times were essentially normal. In addition, these patients showed delayed movement times of the upper limb, even if their injury was located in the thoracic or lumbar region.RESULTSWell-recovered subjects with incomplete paraplegia still suffered from deficits in conduction and movement time, whereas their processing and motor times were essentially normal. In addition, these patients showed delayed movement times of the upper limb, even if their injury was located in the thoracic or lumbar region.Well-recovered patients with incomplete paraplegia still experience difficulties with quick and accurate movements. Furthermore, combining transcranial magnetic stimulation, electromyogram, and a response time task proved useful for investigating deficits in executing fast and accurate movements.CONCLUSIONSWell-recovered patients with incomplete paraplegia still experience difficulties with quick and accurate movements. Furthermore, combining transcranial magnetic stimulation, electromyogram, and a response time task proved useful for investigating deficits in executing fast and accurate movements.
Author Labruyère, Rob
Zimmerli, Marion
van Hedel, Hubertus J.
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Keywords iSCI
Transcranial magnetic stimulation
TUG
LED
MWUT
TA
Neurophysiology
Paraplegia
ASIA
Reaction time
SCI
MEP
Rehabilitation
TMS
EMG
spinal cord injury
motor-evoked potential
incomplete SCI
electromyogram
tibialis anterior
Mann-Whitney U test
American Spinal Injury Association
light-emitting diode
Timed Up and Go Test
Language English
License Copyright © 2013 American Congress of Rehabilitation Medicine. Published by Elsevier Inc. All rights reserved.
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Snippet To quantify remaining motor deficits in well-recovered subjects with incomplete spinal cord injury. Case-control study. Spinal cord injury center of a...
Abstract Objective To quantify remaining motor deficits in well-recovered subjects with incomplete spinal cord injury. Design Case-control study. Setting...
To quantify remaining motor deficits in well-recovered subjects with incomplete spinal cord injury.OBJECTIVETo quantify remaining motor deficits in...
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StartPage 2020
SubjectTerms Electromyography
Evoked Potentials, Motor - physiology
Female
Gait - physiology
Hospitals, University
Humans
Male
Middle Aged
Muscle, Skeletal - physiopathology
Neurophysiology
Paralysis - etiology
Paralysis - physiopathology
Paraplegia
Physical Medicine and Rehabilitation
Reaction time
Reaction Time - physiology
Rehabilitation
Spinal Cord Injuries - complications
Transcranial magnetic stimulation
Visual Acuity
Walking - physiology
Title Slowed Down: Response Time Deficits in Well-Recovered Subjects With Incomplete Spinal Cord Injury
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https://www.clinicalkey.es/playcontent/1-s2.0-S0003999313003067
https://dx.doi.org/10.1016/j.apmr.2013.04.002
https://www.ncbi.nlm.nih.gov/pubmed/23602883
https://www.proquest.com/docview/1438569663
https://www.proquest.com/docview/1532415716
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