| human | Q5 |
| P8446 | Gateway to Research person ID | 6C849B50-135F-468E-9A35-8EC56ED7339D |
| P2798 | Loop ID | 65755 |
| P1207 | NUKAT ID | n2017046091 |
| P496 | ORCID iD | 0000-0002-1897-0780 |
| P1053 | ResearcherID | A-5227-2009 |
| P214 | VIAF ID | 44148704062736930903 |
| P69 | educated at | University of Oxford | Q34433 |
| University of London | Q170027 | ||
| Royal College of Physicians, London | Q16003969 | ||
| P108 | employer | Imperial College London | Q189022 |
| Imperial College Healthcare NHS Trust | Q14956770 | ||
| P106 | occupation | researcher | Q1650915 |
| Q100389562 | A Novel Auditory-Cognitive Training App for Delaying or Preventing the Onset of Dementia: Participatory Design With Stakeholders |
| Q34109031 | A deficit of spatial remapping in constructional apraxia after right-hemisphere stroke |
| Q99710635 | Amyloid PET imaging in clinical practice |
| Q87961929 | An undiagnosed stupor in the acute medical unit: a case of malignant catatonia |
| Q48279927 | Antisaccades and executive dysfunction in PD: Two sides of the same coin? |
| Q24598095 | Attention deficits following ADEM ameliorated by guanfacine |
| Q59118444 | Attention in action: Evidence from on-line corrections in left visual neglect |
| Q52560084 | Attention modulates the visual field in healthy observers and parietal patients. |
| Q51887235 | Attention networks and their interactions after right-hemisphere damage. |
| Q27302629 | Bidirectional Modulation of Numerical Magnitude |
| Q48024952 | Clinical utility of amyloid PET imaging with (18)F-florbetapir: a retrospective study of 100 patients |
| Q51032616 | Distinguishing non-spatial from spatial biases in visual selection: neuropsychological evidence. |
| Q30975724 | Does Stroke Imaging Provide Insights into the Neural Basis of Cognition? |
| Q36982174 | Dynamic attentional modulation of vision across space and time after right hemisphere stroke and in ageing. |
| Q93366993 | Exploring Alzheimer's disease subtypes at the prodromal stage |
| Q36369728 | Hemispatial neglect, balance and eye-movement control. |
| Q48136161 | Impaired delayed but preserved immediate grasping in a neglect patient with parieto-occipital lesions |
| Q51996866 | Impaired spatial working memory: one component of the visual neglect syndrome? |
| Q93370240 | Impairments of attention in Alzheimer's disease |
| Q48114496 | Influence of biases in numerical magnitude allocation on human prosocial decision making. |
| Q39031576 | Motivation and attention following hemispheric stroke. |
| Q47892228 | Motor dexterity and strength depend upon integrity of the attention-control system. |
| Q27302923 | Neural Systems Involved When Attending to a Speaker. |
| Q47890289 | Neurological complications of renal dialysis and transplantation. |
| Q48707116 | No neglect-specific deficits in reaching tasks |
| Q46784689 | Noradrenergic modulation of space exploration in visual neglect. |
| Q48621082 | Perceived state of self during motion can differentially modulate numerical magnitude allocation. |
| Q73501944 | Prism adaptation can improve contralesional tactile perception in neglect |
| Q50045109 | Randomised, double-blind, placebo-controlled crossover study of single-dose guanfacine in unilateral neglect following stroke |
| Q30364004 | Reducing chronic visuo-spatial neglect following right hemisphere stroke through instrument playing |
| Q36682236 | Reward modulates spatial neglect |
| Q57493112 | Reward sensitivity predicts dopaminergic response in spatial neglect |
| Q36361000 | Right hemisphere dominance directly predicts both baseline V1 cortical excitability and the degree of top-down modulation exerted over low-level brain structures. |
| Q90671470 | Self-perspective in episodic memory after parietal damage and in healthy ageing |
| Q95810627 | Space re-exploration in hemispatial neglect |
| Q26822379 | Spatial neglect |
| Q36722203 | Temporoparietal encoding of space and time during vestibular-guided orientation. |
| Q39305831 | Thalamic control of human attention driven by memory and learning |
| Q59118460 | The Role of Right Temporal Lobe Structures in Off-line Action: Evidence from Lesion-Behavior Mapping in Stroke Patients |
| Q33696237 | The automatic pilot of the hand is unbalanced by visual neglect |
| Q36533189 | The effect of oppositional parietal transcranial direct current stimulation on lateralized brain functions |
| Q47437251 | The effects of motivational reward on the pathological attentional blink following right hemisphere stroke. |
| Q36124394 | The effects of the dopamine agonist rotigotine on hemispatial neglect following stroke |
| Q48644936 | The neural basis of visuomotor deficits in hemispatial neglect |
| Q42095464 | The role of the right inferior frontal gyrus in the pathogenesis of post-stroke psychosis |
| Q96580839 | Using amyloid PET imaging to diagnose Alzheimer's disease in patients with multiple sclerosis |
| Q99203501 | Using non-invasive transcranial direct current stimulation for neglect and associated attentional deficits following stroke |
| Q36143175 | Visual neglect after right posterior cerebral artery infarction. |
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