Prism adaptation to a rightward optical deviation rehabilitates left hemispatial neglect
about
Cognitive rehabilitation for spatial neglect following strokeCognitive rehabilitation for spatial neglect following strokeBeyond the Sensorimotor Plasticity: Cognitive Expansion of Prism Adaptation in Healthy IndividualsAssessment and rehabilitation of neglect using virtual reality: a systematic reviewSpatial neglectUsing virtual reality to augment perception, enhance sensorimotor adaptation, and change our mindsInteractions between number and space in parietal cortexReducing chronic visuo-spatial neglect following right hemisphere stroke through instrument playingHearing and music in unilateral spatial neglect neuro-rehabilitation.Using brain potentials to understand prism adaptation: the error-related negativity and the P300Long lasting egocentric disorientation induced by normal sensori-motor spatial interaction.Split-belt treadmill adaptation transfers to overground walking in persons poststroke.The impact of augmented information on visuo-motor adaptation in younger and older adultsMulti-Trial Gait Adaptation of Healthy Individuals during Visual Kinematic PerturbationsCalcium dynamics encode the magnitude of a graded memory underlying sensorimotor adaptation.Sensorimotor Learning: Neurocognitive Mechanisms and Individual DifferencesSeeing your error alters my pointing: observing systematic pointing errors induces sensori-motor after-effects.Non-spatially lateralized mechanisms in hemispatial neglect.Asymmetrical effects of adaptation to left- and right-shifting prisms depends on pre-existing attentional biases.Unilateral spatial neglect.Visuomotor adaptation needs a validation of prediction error by feedback error.Behavioural distinction between strategic control and spatial realignment during visuomotor adaptation in a viewing window taskReorganization of finger coordination patterns during adaptation to rotation and scaling of a newly learned sensorimotor transformation.Visuomotor learning enhanced by augmenting instantaneous trajectory error feedback during reaching.A spatial explicit strategy reduces error but interferes with sensorimotor adaptationStrength in numbers: combining neck vibration and prism adaptation produces additive therapeutic effects in unilateral neglect.Rehabilitation--emerging technologies, innovative therapies, and future objectives.Study protocol of 'Prism Adaptation in Rehabilitation': a randomized controlled trial in stroke patients with neglect.Animal models of cerebral neglect and its cancellation.Deployment of spatial attention without moving the eyes is boosted by oculomotor adaptation.Modulating locomotor adaptation with cerebellar stimulation.The effects of the dopamine agonist rotigotine on hemispatial neglect following stroke.Adaptation to Leftward Shifting Prisms Alters Motor Interhemispheric Inhibition.Left-deviating prism adaptation in left neglect patient: reflexions on a negative result.Error-enhancing robot therapy to induce motor control improvement in childhood onset primary dystoniaImprovement of hemispatial neglect by a see-through head-mounted display: a preliminary study.Neurobiology of unilateral spatial neglect.Cognitive rehabilitation interventions for neglect and related disorders: moving from bench to bedside in stroke patients.Prism adaptation for spatial neglect after stroke: translational practice gaps.Robotics and virtual reality: a perfect marriage for motor control research and rehabilitation.
P2860
Q24201405-3459E9FB-5288-43DD-90EC-1E2AD1ADFA38Q24245398-706DDB0C-FFB0-453F-8782-ED312EC253BFQ26771489-7896EAEB-1DFD-4C60-8BF0-424F311468EEQ26785339-4AC99E8D-B267-4358-808B-0B5DAE03892EQ26822379-46B3645C-FEBC-430A-A960-D4DCE1D4440CQ27002039-96653702-6C84-4DB1-99BA-AE218A56913DQ28253939-A363F7E6-0F2F-463D-9F4E-B54DD1ED4ABCQ30364004-C5D17758-B64A-40C0-8A48-3059B3F7796DQ30370509-7B4794E7-06BB-4BCE-97F1-61820539A58CQ30654116-E5A5EC4F-ABA2-45E5-B9C5-8BCCA163F749Q33408547-FC49CB6F-4046-4FA3-8E9D-A74D61CE0FB5Q33609016-FBBFA2F2-6A09-42FC-9115-D74A85F9E23BQ33659018-8D658130-EABD-4BC5-BD0C-FC324B9CDFB0Q33813032-4D366B2C-A132-4F3A-8250-459187424E1DQ33841349-786C7721-B986-45C1-8396-2A8D2B05302DQ33900590-FE629463-D023-47FD-9DE5-BC23E0D35142Q33952167-3DC0369E-9174-402A-BFB4-5448E749FEC8Q34168472-260EDB0C-CF36-4BD5-9CF3-6CC9FE99C48FQ34192353-FB4C2EEC-B7E2-4D9C-8AE7-D7F7A2441A97Q34425798-C26ABD31-7DAA-4F39-AF8B-63133C122339Q34448800-D14E6A13-6207-46C0-84B9-445EF87D3408Q34485132-2E9A5E05-69D3-4486-AB30-13A1A1063C5DQ34502604-40D8924C-436E-4530-AE53-A2BB8459B299Q34575004-71C42142-0CF9-4AA9-A61F-B0762255C803Q35055989-14E0AFB2-6DD9-4524-9E93-B1015B438AB3Q35086341-E578DA82-E6C6-4807-9B50-DAB2BBEA08C9Q35140923-ACE62B4B-FEDF-499C-9311-CE382756D232Q35554522-A6CC3981-BE6F-4578-B5BB-F1CEBFE2FD00Q35608996-EF6EA9C7-C218-4F18-A41A-21C9EE9CD9B7Q35913090-3A6C5C26-A0F3-465A-9099-737967F3656AQ36043002-84B3B570-2A88-42A5-8F33-5E3FCC2D2C57Q36124394-22B7C39A-9F19-468A-AEA8-3E889215073CQ36228916-780C5AED-8894-45FD-BCDD-75CBCF609FADQ36294283-EA459089-B0B0-4A5B-B9F9-6974847345F5Q36347932-7EA6651A-03E1-454B-88CE-0161DCA148E1Q36370267-00A534E0-81FE-479B-9755-73653DD31328Q36412255-78B5DB1F-DF6E-4456-85E7-39631E8A7E0BQ36535123-5B79C908-BBB1-4D6F-B7D8-5875ECD19003Q36594555-675E6E67-1791-44A8-9FFC-24EE53DFBD2CQ36712524-2A965925-42E9-401A-AE99-48F3A02F523E
P2860
Prism adaptation to a rightward optical deviation rehabilitates left hemispatial neglect
description
article publié dans la revue scientifique Nature
@fr
scientific article published in Nature
@en
wetenschappelijk artikel
@nl
наукова стаття, опублікована в Nature у вересні 1998
@uk
name
Prism adaptation to a rightward optical deviation rehabilitates left hemispatial neglect
@en
Prism adaptation to a rightward optical deviation rehabilitates left hemispatial neglect
@nl
type
label
Prism adaptation to a rightward optical deviation rehabilitates left hemispatial neglect
@en
Prism adaptation to a rightward optical deviation rehabilitates left hemispatial neglect
@nl
prefLabel
Prism adaptation to a rightward optical deviation rehabilitates left hemispatial neglect
@en
Prism adaptation to a rightward optical deviation rehabilitates left hemispatial neglect
@nl
P2093
P356
P1433
P1476
Prism adaptation to a rightward optical deviation rehabilitates left hemispatial neglect
@en
P2093
P2888
P304
P356
10.1038/25988
P407
P577
1998-09-01T00:00:00Z
P6179
1045376490