Motor recovery and cortical reorganization after constraint-induced movement therapy in stroke patients: a preliminary study.
about
Rodent models of focal stroke: size, mechanism, and purposeRemodeling the brain: plastic structural brain changes produced by different motor therapies after strokeFunctional MRI using robotic MRI compatible devices for monitoring rehabilitation from chronic stroke in the molecular medicine era (Review)The promotion of recovery through rehabilitation after acquired brain injury in childrenPediatric constraint-induced movement therapy is associated with increased contralateral cortical activity on functional magnetic resonance imagingPediatric constraint-induced movement therapy: a promising intervention for childhood hemiparesisCortical reorganization after hand immobilization: the beta qEEG spectral coherence evidencesGait improvement after treadmill training in ischemic stroke survivors: A critical review of functional MRI studies.Mechanisms underlying recovery of motor function after stroke.Movement-dependent stroke recovery: a systematic review and meta-analysis of TMS and fMRI evidence.Functional neuroimaging in stroke recovery and neurorehabilitation: conceptual issues and perspectives.Brain-mapping techniques for evaluating poststroke recovery and rehabilitation: a review.Impact of early applied upper limb stimulation: the EXPLICIT-stroke programme designBrain SPECT Analysis After Constraint-Induced Movement Therapy in Young Children with Hemiplegic Cerebral Palsy: Case ReportProgressive shoulder abduction loading is a crucial element of arm rehabilitation in chronic strokeNon-Invasive Brain Stimulation to Enhance Upper Limb Motor Practice Poststroke: A Model for Selection of Cortical Site.Evolution of FMRI activation in the perilesional primary motor cortex and cerebellum with rehabilitation training-related motor gains after stroke: a pilot study.Revisiting constraint-induced movement therapy: are we too smitten with the mitten? Is all nonuse "learned"? and other quandaries.Impairment-Based 3-D Robotic Intervention Improves Upper Extremity Work Area in Chronic Stroke: Targeting Abnormal Joint Torque Coupling With Progressive Shoulder Abduction Loading.Repetitive bilateral arm training and motor cortex activation in chronic stroke: a randomized controlled trialMR compatible force sensing system for real-time monitoring of wrist moments during fMRI testing.Bilateral arm training: why and who benefits?Constraint-induced movement therapy as a paradigm of translational research in neurorehabilitation: Reviews and prospectsLearning motor sequences with and without knowledge of governing rules.Voluntary Activation is Reduced in Both the More- and Less-Affected Upper Limbs after Unilateral Stroke.Auditory rehabilitation for interaural asymmetry: preliminary evidence of improved dichotic listening performance following intensive training.Themes and strategies for studying the biology of stroke recovery in the poststroke epoch.Greater activation of secondary motor areas is related to less arm use after stroke.Constraint-induced movement therapy results in increased motor map area in subjects 3 to 9 months after stroke.Enduring Poststroke Motor Functional Improvements by a Well-Timed Combination of Motor Rehabilitative Training and Cortical Stimulation in RatsPerson-specific changes in motor performance accompany upper extremity functional gains after stroke.Brain effective connectivity during motor-imagery and execution following stroke and rehabilitationRecovery of post stroke proximal arm function, driven by complex neuroplastic bilateral brain activation patterns and predicted by baseline motor dysfunction severityNeed for speed: better movement quality during faster task performance after strokeNeuroimaging in stroke recovery: a position paper from the First International Workshop on Neuroimaging and Stroke Recovery.The potential for utilizing the "mirror neurone system" to enhance recovery of the severely affected upper limb early after stroke: a review and hypothesis.Using ipsilateral motor signals in the unaffected cerebral hemisphere as a signal platform for brain-computer interfaces in hemiplegic stroke survivors.Functional neuroimaging in motor recovery after stroke.Rehabilitation and functional neuroimaging dose-response trajectories for clinical trials.Frontal and frontoparietal injury differentially affect the ipsilateral corticospinal projection from the nonlesioned hemisphere in monkey (Macaca mulatta)
P2860
Q24529165-1AED476F-221E-400F-86F8-E68EE25A69DCQ24647483-95B2788C-D397-49C5-9AF5-44034BCA6D3EQ27007654-66C0D728-2C2E-4963-BC83-93913A14F5B2Q27012588-1F326A3D-534E-40FE-8824-15CE24B36DE3Q28260502-6217F8B1-6041-428C-953C-EE1B5ED3FDE6Q28264367-4A52C060-081E-415D-9E02-171221FEDAB0Q30446843-CCE3B52C-AE15-4B8D-A1C6-9AD839D4E650Q30863630-F6C99ACF-E97A-4EAF-96F7-EFC0134276C5Q30978384-FD50E835-D22D-4208-9E85-36B07B6FC4CAQ31131535-8FC5B29D-30BC-4A59-B7D2-478D73DE4384Q33360425-48A4E0FB-A1D5-4156-B0E3-82D35E335D30Q33384358-FA5A524D-BA2A-4D86-913D-B7ACA8D4AB3EQ33394038-93108FF1-84FF-4C64-B6C4-9DBAEB769BA5Q33700906-3F98C4A3-A543-4FB6-B017-237CA4F33F07Q33707555-7A46F2F2-A7C7-4415-8F01-537BF5EACA6EQ33734749-1D1E8C71-DE11-4C6E-9803-66FE89723D29Q33792551-383707D1-A912-45AD-AE2E-FF38017416ECQ34004961-01413318-8684-47E9-980B-8DC2C6140974Q34013638-D5D507D7-0BD8-4455-9AE1-ABEBF256A017Q34095046-97EC71CB-7E42-47A7-8756-0EFB1A4CC813Q34172979-C0879392-9E09-479E-8C29-FCA0DC8BCEAFQ34191531-16F8BDA8-F109-4B49-9069-3C01A606D113Q34310248-86E6278E-4BF0-4A4D-A624-9D0EE0424453Q34417350-310888B7-1E44-457B-9FB8-9FE53C4623F5Q34540689-4ED596EE-A1C2-4733-BB33-279B41D737D1Q34743686-334AB191-01E8-4CFC-B8D2-711BC787E6F4Q34756746-61FCAF59-AB11-4D67-ABED-04808627AA2DQ35235262-0A49B3E8-F123-4355-B024-09A14CC759B0Q35603705-EE0B32EA-6449-4C7A-967D-6D0CC21C7C16Q35761606-F32478A8-4129-4110-95F7-337464F88000Q35834677-24989CDD-52C5-45FA-8609-ADA4EF89EE99Q35849704-A660C020-D428-456E-85AF-783959B17E68Q35877118-E27D2533-7A08-4150-8BD9-06B84DC750A1Q35886008-A4C18080-0D73-4372-A6B4-CF304C2EEADEQ35918118-F6A08170-176E-4879-B32E-86D0032111D6Q36021316-38E97A5E-B004-4DDA-91A8-5E9B2442A143Q36108853-FF295721-1567-423B-A203-11C5EDD576C9Q36154370-DFE877F2-D38F-4688-9954-4867832DF757Q36303528-358690E2-5434-44F6-8A8C-394900BDA7A1Q36362978-8AC8300A-5018-48F7-88D4-33EB0CADE8F6
P2860
Motor recovery and cortical reorganization after constraint-induced movement therapy in stroke patients: a preliminary study.
description
2002 nî lūn-bûn
@nan
2002年の論文
@ja
2002年学术文章
@wuu
2002年学术文章
@zh
2002年学术文章
@zh-cn
2002年学术文章
@zh-hans
2002年学术文章
@zh-my
2002年学术文章
@zh-sg
2002年學術文章
@yue
2002年學術文章
@zh-hant
name
Motor recovery and cortical re ...... patients: a preliminary study.
@en
Motor recovery and cortical re ...... patients: a preliminary study.
@nl
type
label
Motor recovery and cortical re ...... patients: a preliminary study.
@en
Motor recovery and cortical re ...... patients: a preliminary study.
@nl
prefLabel
Motor recovery and cortical re ...... patients: a preliminary study.
@en
Motor recovery and cortical re ...... patients: a preliminary study.
@nl
P2093
P2860
P1476
Motor recovery and cortical re ...... patients: a preliminary study.
@en
P2093
Bruce R Rosen
Eduard Kraft
Judith D Schaechter
Seth P Finklestein
Steven C Cramer
Thomas Benner
Timothy S Hilliard
P2860
P304
P356
10.1177/154596830201600403
P577
2002-12-01T00:00:00Z