about
Attention deficits following ADEM ameliorated by guanfacineSpatial neglectBidirectional Modulation of Numerical Magnitude.Neural Systems Involved When Attending to a Speaker.Reducing chronic visuo-spatial neglect following right hemisphere stroke through instrument playingDoes Stroke Imaging Provide Insights into the Neural Basis of Cognition?The automatic pilot of the hand is unbalanced by visual neglectA deficit of spatial remapping in constructional apraxia after right-hemisphere stroke.The effects of the dopamine agonist rotigotine on hemispatial neglect following stroke.Visual neglect after right posterior cerebral artery infarction.Right hemisphere dominance directly predicts both baseline V1 cortical excitability and the degree of top-down modulation exerted over low-level brain structures.Hemispatial neglect, balance and eye-movement control.The effect of oppositional parietal transcranial direct current stimulation on lateralized brain functions.Reward modulates spatial neglectTemporoparietal encoding of space and time during vestibular-guided orientation.Dynamic attentional modulation of vision across space and time after right hemisphere stroke and in ageing.Motivation and attention following hemispheric stroke.Thalamic control of human attention driven by memory and learning.The role of the right inferior frontal gyrus in the pathogenesis of post-stroke psychosisNoradrenergic modulation of space exploration in visual neglect.The effects of motivational reward on the pathological attentional blink following right hemisphere stroke.Neurological complications of renal dialysis and transplantation.Motor dexterity and strength depend upon integrity of the attention-control system.Clinical utility of amyloid PET imaging with (18)F-florbetapir: a retrospective study of 100 patients.Influence of biases in numerical magnitude allocation on human prosocial decision making.Impaired delayed but preserved immediate grasping in a neglect patient with parieto-occipital lesions.Antisaccades and executive dysfunction in PD: Two sides of the same coin?Perceived state of self during motion can differentially modulate numerical magnitude allocation.The neural basis of visuomotor deficits in hemispatial neglect.No neglect-specific deficits in reaching tasks.Randomised, double-blind, placebo-controlled crossover study of single-dose guanfacine in unilateral neglect following stroke.Distinguishing non-spatial from spatial biases in visual selection: neuropsychological evidence.Attention networks and their interactions after right-hemisphere damage.Impaired spatial working memory: one component of the visual neglect syndrome?Attention modulates the visual field in healthy observers and parietal patients.Reward sensitivity predicts dopaminergic response in spatial neglectAttention in action: Evidence from on-line corrections in left visual neglectThe Role of Right Temporal Lobe Structures in Off-line Action: Evidence from Lesion-Behavior Mapping in Stroke PatientsPrism adaptation can improve contralesional tactile perception in neglectAn undiagnosed stupor in the acute medical unit: a case of malignant catatonia
P50
Q24598095-141F9E25-3B7E-40A2-957B-D9107A58CA00Q26822379-54CEC982-9E8D-4691-8016-C5244591415EQ27302629-166DB901-74FE-4AE2-A0EB-06B43BF5E95FQ27302923-BF34E1B7-19E8-41BD-BFBD-5C3CA4886D5CQ30364004-E4A497DC-26BC-4190-94F3-3A3658A030EBQ30975724-6A628344-67CE-41EE-9257-A353545F5A43Q33696237-CDE25ECB-37B5-4AD9-8009-9AF33F94AC44Q34109031-5D5AF5DC-3264-4DC7-93BA-F5F0365ADFAEQ36124394-CE07D3E6-4896-442E-B96A-E8B335B150D9Q36143175-29A4B944-ACB2-4BBF-ACB1-4BDAD4668466Q36361000-1E2DCF72-C4B7-4D5A-AE30-2529CFA046AAQ36369728-31F774F6-DA4F-43A2-94A2-59A319347D99Q36533189-F454FEBD-2D45-4626-B0EC-C521AA952099Q36682236-CEC045D4-A908-4A56-8964-FDB370D6BA0EQ36722203-06CA1D20-67F6-43F7-8E12-BE76AF6DECBFQ36982174-A346D4BE-5DB7-4782-967A-683C44B0CEF9Q39031576-40D02A56-9447-4FF7-A536-662A167D3CC6Q39305831-046A9BFB-DC4A-447A-95F3-4D222608FFD5Q42095464-68D0DACA-C0A1-42D7-B2FE-222D17F357AEQ46784689-31A6A3B6-418C-468B-B8A1-3D75DB862D7BQ47437251-D881727B-6CD3-47D7-BF56-5BC97ED051CDQ47890289-59DB5C06-DA5F-4062-AA39-5922589761A4Q47892228-5B7033A4-3B6F-447F-AD0A-92F7409A4A39Q48024952-D0425CD3-3C6B-497B-B730-1EBED7373518Q48114496-AEB71D51-C8C3-4E4D-B31D-1E204BBCBC99Q48136161-4AE13D8D-CBEC-418C-9DF2-DC635D072539Q48279927-C2F4E159-DC97-46E1-BB1F-E748920E4B87Q48621082-5670CAE2-8D83-48B9-9208-05363C3CE42AQ48644936-59F42B23-3C83-4B4D-8DE7-0108CC4D2A12Q48707116-AF819D43-004A-422C-A96D-64C5391CAF86Q50045109-607377D7-3579-4752-9BD5-DB709B3E36FEQ51032616-BFD21818-DC60-46C5-88B8-D32011642945Q51887235-7E5D53EF-470C-4BEB-96EA-F38208241FDEQ51996866-ABB45CC1-9059-4949-9845-A08E700FE217Q52560084-555EC9B5-2770-4FBE-878A-EEF9D0077EBFQ57493112-885EC130-DE2A-42FE-8737-179EAE750C83Q59118444-E3265C9B-63C1-47CD-A984-AE9538C9D86BQ59118460-92985843-8FE6-4481-AAD1-F5FE8AA764C5Q73501944-4BFA4E03-8AA2-4D8D-A754-503C81B002DDQ87961929-417F7C3B-29E5-4F72-979C-5B8660B8AE23
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Paresh A Malhotra
@ast
Paresh A Malhotra
@en
Paresh A Malhotra
@es
Paresh A Malhotra
@nl
type
label
Paresh A Malhotra
@ast
Paresh A Malhotra
@en
Paresh A Malhotra
@es
Paresh A Malhotra
@nl
prefLabel
Paresh A Malhotra
@ast
Paresh A Malhotra
@en
Paresh A Malhotra
@es
Paresh A Malhotra
@nl
P106
P214
44148704062736930903
P31
P496
0000-0002-1897-0780
P7859
viaf-44148704062736930903