Very Early Constraint-Induced Movement during Stroke Rehabilitation (VECTORS): A single-center RCT
about
Stroke rehabilitation research needs to be different to make a differenceComputational neurorehabilitation: modeling plasticity and learning to predict recoveryMotor System Reorganization After Stroke: Stimulating and Training Toward PerfectionUse it and/or lose it-experience effects on brain remodeling across time after strokeUsing the TIDieR Checklist to Standardize the Description of a Functional Strength Training Intervention for the Upper Limb After StrokeEmergent properties of neural repair: elemental biology to therapeutic conceptsBarriers to the implementation of constraint-induced movement therapy into practiceCritical periods after stroke study: translating animal stroke recovery experiments into a clinical trialCurrent trends in stroke rehabilitation. A review with focus on brain plasticity.Constraint-Induced Movement Therapy Compared to Dose-Matched Interventions for Upper-Limb Dysfunction in Adult Survivors of Stroke: A Systematic Review with Meta-analysisAsking New Questions with Old Data: The Centralized Open-Access Rehabilitation Database for StrokeInterdisciplinary Comprehensive Arm Rehabilitation Evaluation (ICARE): a randomized controlled trial protocol.Forced arm use is superior to voluntary training for motor recovery and brain plasticity after cortical ischemia in rats.Combining Multiple Types of Motor Rehabilitation Enhances Skilled Forelimb Use Following Experimental Traumatic Brain Injury in RatsSelective Age Effects on Visual Attention and Motor Attention during a Cued Saccade Task.The effects of increased dose of exercise-based therapies to enhance motor recovery after stroke: a systematic review and meta-analysisFeasibility of high-repetition, task-specific training for individuals with upper-extremity paresisMotor task performance under vibratory feedback early poststroke: single center, randomized, cross-over, controlled clinical trial.Changes in functional brain organization and behavioral correlations after rehabilitative therapy using a brain-computer interfaceRehabilitation after stroke: current state of the science.The EXCITE stroke trial: comparing early and delayed constraint-induced movement therapyFAST INdiCATE Trial protocol. Clinical efficacy of functional strength training for upper limb motor recovery early after stroke: neural correlates and prognostic indicatorsEnhancing Nervous System Recovery through Neurobiologics, Neural Interface Training, and Neurorehabilitation.Time-sensitive reorganization of the somatosensory cortex poststroke depends on interaction between Hebbian and homeoplasticity: a simulation study.What is the evidence for physical therapy poststroke? A systematic review and meta-analysis.Emerging treatments for motor rehabilitation after stroke.Constraint-induced movement therapy after stroke.Translating animal doses of task-specific training to people with chronic stroke in 1-hour therapy sessions: a proof-of-concept studyExploring expectations for upper-extremity motor treatment in people after stroke: a secondary analysisLonger versus shorter mental practice sessions for affected upper extremity movement after stroke: a randomized controlled trialDose-response relationships using brain-computer interface technology impact stroke rehabilitationReal-world affected upper limb activity in chronic stroke: an examination of potential modifying factors.Functional recovery following stroke: capturing changes in upper-extremity function.Prespecified dose-response analysis for A Very Early Rehabilitation Trial (AVERT).Access, timing and frequency of very early stroke rehabilitation - insights from the Baden-Wuerttemberg stroke registry.Assessment of upper extremity impairment, function, and activity after stroke: foundations for clinical decision making.Review of the randomized clinical stroke rehabilitation trials in 2009.Effect of a Task-Oriented Rehabilitation Program on Upper Extremity Recovery Following Motor Stroke: The ICARE Randomized Clinical Trial.Transcranial magnetic stimulation in mild to severe hemiparesis early after stroke: a proof of principle and novel approach to improve motor function.Neuroplasticity in the context of motor rehabilitation after stroke.
P2860
Q26740729-9F11B245-6260-4AFE-A80D-1EAC95EA8523Q26748823-D190FA65-89AD-495F-AB2A-447838B0201BQ26795480-1CC75E80-9C92-4CCE-85F1-36232E49CEB6Q27011879-FE6CB080-9A8D-4518-9252-776FE261C035Q27313833-4FF75CBF-32FA-454B-BF25-82A259D6F3CCQ28067303-DAEF61E7-DEC9-43C3-962F-17FBB8A2DC6DQ28262465-A55B6195-5E01-4BAE-B48A-0C8D46B3E8EAQ28648246-04A6C378-07CA-4F04-BAD5-D61C022E220CQ30392818-EFFF8D81-300A-4E4F-9412-CC7590B55FD9Q30477180-8569CE8B-6786-49D5-9FC0-A537D18DA642Q30489952-90BC0B98-A10D-4907-A1B2-F40776C23243Q30532522-5AE924D2-785B-4E09-9D6B-6F047BF59D98Q30572938-AD7D109D-ED30-4CAC-8408-44FD070F1EB2Q30827139-04B18998-9166-45CA-B949-74DFD943FD77Q33677038-F51EC889-BA20-460F-AF0B-9BCAD66DD653Q33717461-64BD458B-3C58-4182-B523-DAA1F5D2BB2EQ33862033-110EA492-70A0-4617-9641-3BB545715321Q33883370-BE988148-8E29-4105-B736-DB46D099A283Q33898187-3D60C09A-BCC8-4C29-BFEA-F3FAA72D5D06Q34020336-1C386B3E-C7AE-48D4-8C85-0E303246AF3EQ34197404-DC08FF83-31AE-45D8-A0F2-74AE63E19A46Q34495524-C6B451B5-0D60-4EB5-A21D-DC59C33B6F0CQ34549120-D3808214-11FF-4D14-88D8-2478A9ECC89AQ34726999-1A504310-F39A-4D94-A4EB-D264554999D9Q35088338-00E3CC1C-EE04-40F6-9831-BBC37C5A7227Q35171322-B66C7B51-5CC3-479C-8F14-EDD5C551C9C7Q35182788-6C243A44-9423-4574-9494-CD159C0A8F0EQ35607166-511B675C-D657-4BA5-88A4-18CA731A077DQ35609196-EDA59AE6-D5C9-48C9-8F6B-41D54443DB41Q35671445-A90A29F8-E34C-4F50-B6D1-CD3C5D247EF1Q35768870-5CDFA098-B69F-4F49-A7A8-07214252A8D3Q35771694-F01DB4C4-0352-4102-A4DE-A76C6B6FD155Q35801405-CA677C24-E32C-420B-B31A-5582104A0414Q35926918-DE7081F4-F715-47A9-8F6D-2282FD6DFDAEQ36194421-02EB41BF-22A3-46C0-A052-46ED2F209967Q36472786-D6E3A5E4-2C70-45FD-97E8-05AF8A352EFFQ36473833-394E7097-C0CF-4340-826B-0D4F848B2AE4Q36698066-F5FABD8A-7BBD-4491-8A1A-63C7517FB786Q36942642-E29BA7AF-8481-48D8-A4D3-ED0DB5829E43Q36950735-A08B4BA3-D3A8-4AD8-B2B0-786DF9B22D6D
P2860
Very Early Constraint-Induced Movement during Stroke Rehabilitation (VECTORS): A single-center RCT
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 20 May 2009
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Very Early Constraint-Induced ...... (VECTORS): A single-center RCT
@en
Very Early Constraint-Induced Movement during Stroke Rehabilitation
@nl
type
label
Very Early Constraint-Induced ...... (VECTORS): A single-center RCT
@en
Very Early Constraint-Induced Movement during Stroke Rehabilitation
@nl
prefLabel
Very Early Constraint-Induced ...... (VECTORS): A single-center RCT
@en
Very Early Constraint-Induced Movement during Stroke Rehabilitation
@nl
P2093
P2860
P1433
P1476
Very Early Constraint-Induced ...... (VECTORS): A single-center RCT
@en
P2093
A W Dromerick
D F Edwards
J M Wagner
J P Miller
R L Birkenmeier
T O Videen
W J Powers
P2860
P304
P356
10.1212/WNL.0B013E3181AB2B27
P407
P577
2009-05-20T00:00:00Z