Locomotor training approaches for individuals with spinal cord injury: a preliminary report of walking-related outcomes.
about
Locomotor training for walking after spinal cord injuryInfluence of a locomotor training approach on walking speed and distance in people with chronic spinal cord injury: a randomized clinical trialThe SCIRehab project: treatment time spent in SCI rehabilitation. Physical therapy treatment time during inpatient spinal cord injury rehabilitationA Review on Locomotor Training after Spinal Cord Injury: Reorganization of Spinal Neuronal Circuits and Recovery of Motor FunctionChanges in locomotor muscle activity after treadmill training in subjects with incomplete spinal cord injury.Effect of locomotor training on motor recovery and walking ability in patients with incomplete spinal cord injury: a case series.Effects of serotonergic medications on locomotor performance in humans with incomplete spinal cord injury.A randomized trial of functional electrical stimulation for walking in incomplete spinal cord injury: Effects on walking competencyDoes therapeutic electrical stimulation improve function in children with disabilities? A comprehensive literature review.Injured mice at the gym: review, results and considerations for combining chondroitinase and locomotor exercise to enhance recovery after spinal cord injuryComparison of training methods to improve walking in persons with chronic spinal cord injury: a randomized clinical trial.Effects of robotic-locomotor training on stretch reflex function and muscular properties in individuals with spinal cord injury.A Systematic Review of Experimental Strategies Aimed at Improving Motor Function after Acute and Chronic Spinal Cord Injury.Benefits of FES gait in a spinal cord injured population.Plasticity of interneuronal networks of the functionally isolated human spinal cord.A prediction model for determining over ground walking speed after locomotor training in persons with motor incomplete spinal cord injuryThe effectiveness of physical interventions for people with spinal cord injuries: a systematic review.SCIRehab Project series: the physical therapy taxonomyWhole-body vibration improves walking function in individuals with spinal cord injury: a pilot study.Gait quality is improved by locomotor training in individuals with SCI regardless of training approach.Strength training versus robot-assisted gait training after incomplete spinal cord injury: a randomized pilot study in patients depending on walking assistancePrediction of gait recovery in spinal cord injured individuals trained with robotic gait orthosis.Robot-assisted gait training (Lokomat) improves walking function and activity in people with spinal cord injury: a systematic review.Rehabilitation techniques to maximize spasticity management.The effects of exercise training on physical capacity, strength, body composition and functional performance among adults with spinal cord injury: a systematic review.Evidence-based risk assessment and recommendations for physical activity clearance: stroke and spinal cord injury.Neurorobotic and hybrid management of lower limb motor disorders: a review.A systematic review of the efficacy of gait rehabilitation strategies for spinal cord injury.Robotic-assisted gait training in neurological patients: who may benefit?Spinal cord injury: overview of experimental approaches used to restore locomotor activity.Supraspinal Control Predicts Locomotor Function and Forecasts Responsiveness to Training after Spinal Cord Injury.What Is Being Trained? How Divergent Forms of Plasticity Compete To Shape Locomotor Recovery after Spinal Cord Injury.Neuromotor and musculoskeletal responses to locomotor training for an individual with chronic motor complete AIS-B spinal cord injury.Functional electrical stimulation in spinal cord injury:: from theory to practice.Soleus H-reflex modulation during body weight support treadmill walking in spinal cord intact and injured subjects.Comparison of forward versus backward walking using body weight supported treadmill training in an individual with a spinal cord injury: a single subject design.A clinically meaningful training effect in walking speed using functional electrical stimulation for motor-incomplete spinal cord injury.Impact of a limited trial of walking training using body weight support and a treadmill on the gait characteristics of an individual with chronic, incomplete spinal cord injury.Walking speed is not the best outcome to evaluate the effect of robotic assisted gait training in people with motor incomplete Spinal Cord Injury: A Systematic Review with meta-analysis.The effects of robot assisted gait training on temporal-spatial characteristics of people with spinal cord injuries: A systematic review.
P2860
Q24243232-8C22B75A-9567-4DF3-98B1-0DADECCA44A0Q24603572-F62B9AD3-D1D3-4BA1-AB59-E2668801C271Q24630290-0F952FEA-E6EC-4264-A451-124CAC688E41Q26746911-A6471516-96D3-4D37-A72E-FBC28AAC4B3CQ33552604-17270298-E64E-42B6-BE51-91A7747C7D6BQ33857379-6B722F11-05D1-4EF3-B355-D0A0082F36B5Q33999104-E25A4C0F-ABB4-49BB-ADEA-645827EC7F72Q34197856-0C9D60E6-E608-4CA7-A5FD-7C1B240BAF10Q34530400-C341BD1B-DFBB-4FD8-9728-60ACDDB54275Q34539846-F4392C2C-E738-4893-B309-47DBB5C5BBE6Q35154676-FAA6D440-CCF7-4937-AEE2-5861159E65BBQ35205569-66667062-2DD4-4D21-99BC-5A04FF95AC33Q36654629-B2BD435A-EACC-4445-B672-CFCDCF6069E8Q36889951-59D03CD2-A18A-4797-8B7F-6588E851C9C7Q37016451-8D5D0979-7F8E-43FC-AA5C-2EBABC305D47Q37108987-5E477EA3-7CDC-4394-A97F-BFDB569E69ADQ37251686-5B696030-62BC-47C4-B17C-5B92CB366F6EQ37283847-D820C60A-1AD0-4976-BC68-47BF7504A0FCQ37366623-650DFEB6-C8D6-4D50-86D3-C8C5497EED3FQ37393974-E88C8665-4080-4B5B-9FED-0B6EBB47FF5FQ37526633-930F4B9B-2ECA-4591-AC92-E48C196D44E4Q37704786-63818C76-C0B7-4390-9ABE-4D4BBC2FDB48Q37717510-35D6BA9E-AF8D-43EE-9560-982B3D7D7336Q37885041-4DAC8502-7C58-4B14-A201-9A700BF0FC55Q37885709-81D3D226-E7C3-4292-ADB5-C4F5A478EBD0Q37908096-EA78A81E-64CF-4C47-971B-784850499408Q37918883-02051B3A-72DA-46E6-A899-D5040957B8D2Q38037047-C7D4BE2A-8001-47E7-AC82-F99EF8DF1610Q38365974-C6497E4E-47F1-43EC-9CA1-7C19F55AAA4FQ38419942-0BC0674D-AE1C-4AB7-A425-073BE0A80343Q38817244-FE296B64-5ACD-4987-8E4C-F5F318A34610Q39016883-071F63FC-900C-49DD-965A-513E868E635AQ42073551-46145316-409E-4D5F-80F3-476FC09A253DQ43237969-4A57B91C-314B-47B1-8DCF-3A20D14EB0F5Q47207078-5FE0B6F2-E2D2-4261-9231-E8BC735D8277Q47223637-3946EE7A-B7CE-4FBA-8FC9-712B88F50C8DQ47376432-5A6F6314-2E5A-4636-BC1E-6312B057C7FEQ47422793-9FBA6335-6A77-49FF-92C3-57209ADC06DAQ47727653-E6D11908-D050-4F44-A078-16268658489AQ48105854-FE7E7766-B3C7-470C-B5F1-BFDDE7C2EC75
P2860
Locomotor training approaches for individuals with spinal cord injury: a preliminary report of walking-related outcomes.
description
2005 nî lūn-bûn
@nan
2005年の論文
@ja
2005年学术文章
@wuu
2005年学术文章
@zh-cn
2005年学术文章
@zh-hans
2005年学术文章
@zh-my
2005年学术文章
@zh-sg
2005年學術文章
@yue
2005年學術文章
@zh
2005年學術文章
@zh-hant
name
Locomotor training approaches ...... t of walking-related outcomes.
@en
Locomotor training approaches ...... t of walking-related outcomes.
@nl
type
label
Locomotor training approaches ...... t of walking-related outcomes.
@en
Locomotor training approaches ...... t of walking-related outcomes.
@nl
prefLabel
Locomotor training approaches ...... t of walking-related outcomes.
@en
Locomotor training approaches ...... t of walking-related outcomes.
@nl
P2093
P1476
Locomotor training approaches ...... t of walking-related outcomes.
@en
P2093
Andrew L Sherman
Edelle C Field-Fote
Stephen D Lindley
P304
P356
10.1097/01.NPT.0000282245.31158.09
P577
2005-09-01T00:00:00Z