about
Robotic neurorehabilitation: a computational motor learning perspectiveReview of control strategies for robotic movement training after neurologic injuryElectromechanical and robot-assisted arm training for improving activities of daily living, arm function, and arm muscle strength after strokeElectromechanical and robot-assisted arm training for improving generic activities of daily living, arm function, and arm muscle strength after strokeRecovery Potential After Acute StrokeRobot-assisted Therapy in Stroke RehabilitationRobotic technologies and rehabilitation: new tools for stroke patients' therapyRestoration of sensorimotor functions after spinal cord injuryNeurophysiology of robot-mediated training and therapy: a perspective for future use in clinical populationsSpasticity, Motor Recovery, and Neural Plasticity after Stroke.Current trends in stroke rehabilitation. A review with focus on brain plasticity.Multisensory stimulation in stroke rehabilitation.A survey on robotic devices for upper limb rehabilitation.Brain network involved in visual processing of movement stimuli used in upper limb robotic training: an fMRI study.Special Panel Session: Driving Critical Initiatives in Motor Speech.Valid and reliable instruments for arm-hand assessment at ICF activity level in persons with hemiplegia: a systematic review.Single degree-of-freedom exoskeleton mechanism design for finger rehabilitation.Assessment-driven selection and adaptation of exercise difficulty in robot-assisted therapy: a pilot study with a hand rehabilitation robot.Long-term Rehabilitation in Patients With Acquired Brain Injury.Predictors and brain connectivity changes associated with arm motor function improvement from intensive practice in chronic strokeImaging brain plasticity after trauma.Invasive cortical stimulation to promote recovery of function after stroke: a critical appraisal.Performance adaptive training control strategy for recovering wrist movements in stroke patients: a preliminary, feasibility studySubject-specific myoelectric pattern classification of functional hand movements for stroke survivors.Breaking it down is better: haptic decomposition of complex movements aids in robot-assisted motor learning.Simultaneous and Continuous Estimation of Shoulder and Elbow Kinematics from Surface EMG SignalsDevelopment of a biomimetic hand exotendon device (BiomHED) for restoration of functional hand movement post-stroke.Progressive Staging of Pilot Studies to Improve Phase III Trials for Motor Interventions.Training modalities in robot-mediated upper limb rehabilitation in stroke: a framework for classification based on a systematic review.Can robots help the learning of skilled actions?Applications of Brain-Machine Interface Systems in Stroke Recovery and Rehabilitation.Rehabilitation after stroke: current state of the science.Predictors and biomarkers of treatment gains in a clinical stroke trial targeting the lower extremity.Development and pilot testing of HEXORR: hand EXOskeleton rehabilitation robot.Comparing integrated training of the hand and arm with isolated training of the same effectors in persons with stroke using haptically rendered virtual environments, a randomized clinical trialMotor recovery and cortical reorganization after mirror therapy in chronic stroke patients: a phase II randomized controlled trial.Combining Brain-Computer Interfaces and Assistive Technologies: State-of-the-Art and Challenges.Harnessing neuroplasticity for clinical applications.Corticospinal excitability as a predictor of functional gains at the affected upper limb following robotic training in chronic stroke survivorsProprioceptive feedback and brain computer interface (BCI) based neuroprostheses.
P2860
Q21231959-B8B9A210-6284-4BB6-A5F0-AA1A52282E22Q21231961-C8345DEB-82AB-49AF-ACDC-17BCAF7E229EQ24187902-BF6B77B4-998E-4CFD-8A0B-9CDAFB302756Q24202805-0CA5DC58-9865-408D-B79D-13234A4D0E27Q26776144-EA24C430-0D23-412A-9F54-41C86090ABB7Q26852803-C08C7176-E2AD-41AE-9FA4-CDE4CA1179D6Q26996503-D72B52F8-1AA0-4CC2-84C2-601CE4ED6B9AQ26999051-55A9DB74-2968-4309-989A-139AD4CA78F9Q27008084-B7B6AA36-3107-4C2F-89E8-E3815C3E1159Q30358455-83C89021-3414-43FF-8CF3-904389F24D24Q30392818-3C9AE295-53A1-40A4-A8DA-A98B9C0A0C29Q30415493-654EE734-51B8-4951-866C-F5E8E152B65FQ30438118-FF97039C-1946-49A5-B9B4-304DEF36D8F6Q30463545-76F22F3A-F2AD-4404-8B53-DCCBFF29909FQ30489808-BE4E39C9-4FB5-46C5-85B5-93CF5B6BC073Q30514066-AB214C27-349D-4F10-BBE1-0C1660DB9968Q30557393-42736082-70F7-4342-BE38-BA553E248F66Q30610565-CC11C789-141F-40FA-9195-FCB68D5946DCQ30826353-57713E1D-D5BC-4D97-A80A-DAA4C67ECE2BQ30841477-AEF65ACA-0951-4B88-A7F8-6565F2E58C3FQ30849675-89C1D164-18CA-49DF-8A4F-3CEED30B929EQ33428927-E3E76EA8-1F10-4350-9FBB-DC27D2E052FEQ33562861-F2099EBA-6E63-4760-B85A-EAF8AB19612BQ33566507-C649D9A0-F155-4EF8-866F-792A4CE4E65AQ33587985-C76D53FE-F3A9-4C74-93A1-A50B3C69E25FQ33736590-91CD24EE-4EA9-4536-A8F1-20598C625FA8Q33894912-44523B62-47E5-44E7-8F67-BDA0A18ACC13Q33904274-A615F0B5-9B00-4B20-B7FE-33C738EB8CABQ33942177-94C1156A-07DB-4832-9636-2A58F6FA08E9Q34001789-7727F9BE-34EA-4817-8D70-1EFE33B105BEQ34003753-7E0AD696-12CB-49C8-A2EF-EB3E53A3ECDAQ34020336-F0118393-81E1-4929-AD3D-D486DE44CEA0Q34030966-21BD53C3-5DCE-46D9-B5A2-E0420FA8F692Q34060877-0BC66331-7D46-49E2-8B91-57CF97383F13Q34143928-002A3813-EB1D-4670-8F5F-60E0A47A7BE2Q34148226-48C8B903-CF70-4132-8B1D-68183797A9F8Q34151441-D8F5EC7B-8BE5-4AEE-A591-FCEB1647416DQ34177415-51A808C6-C09A-4BEE-9A90-169B7194AE05Q34207410-95885734-F0A3-4F2F-A7EE-DB25BCED21E8Q34447807-545F46C3-C9F1-4848-B383-31C214214CBC
P2860
description
2007 nî lūn-bûn
@nan
2007年の論文
@ja
2007年学术文章
@wuu
2007年学术文章
@zh
2007年学术文章
@zh-cn
2007年学术文章
@zh-hans
2007年学术文章
@zh-my
2007年学术文章
@zh-sg
2007年學術文章
@yue
2007年學術文章
@zh-hant
name
Robot-based hand motor therapy after stroke.
@en
Robot-based hand motor therapy after stroke.
@nl
type
label
Robot-based hand motor therapy after stroke.
@en
Robot-based hand motor therapy after stroke.
@nl
prefLabel
Robot-based hand motor therapy after stroke.
@en
Robot-based hand motor therapy after stroke.
@nl
P2093
P356
P1433
P1476
Robot-based hand motor therapy after stroke.
@en
P2093
Craig D Takahashi
Lucy Der-Yeghiaian
Rehan R Motiwala
Steven C Cramer
P304
P356
10.1093/BRAIN/AWM311
P407
P577
2007-12-20T00:00:00Z