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Could LC-NE-Dependent Adjustment of Neural Gain Drive Functional Brain Network Reorganization?Selective dissociation between core and extended regions of the face processing network in congenital prosopagnosiaModel-observer similarity, error modeling and social learning in rhesus macaquesRelationship between functional magnetic resonance imaging-identified regions and neuronal category selectivity.Oxytocin modulates fMRI responses to facial expression in macaquesConditional visuo-motor learning in primates: a key role for the basal ganglia.Hierarchical Encoding of Social Cues in Primate Inferior Temporal Cortex.Social learning as a way to overcome choice-induced preferences? Insights from humans and rhesus macaques.Social Facilitation of Cognition in Rhesus Monkeys: Audience Vs. CoactionConditional visuo-motor learning and dimension reduction.Amygdala lesions disrupt modulation of functional MRI activity evoked by facial expression in the monkey inferior temporal cortex.Dynamic and static facial expressions decoded from motion-sensitive areas in the macaque monkeyPerception of emotional expressions is independent of face selectivity in monkey inferior temporal cortex.Intrinsic structure of visual exemplar and category representations in macaque brain.Object representations in the temporal cortex of monkeys and humans as revealed by functional magnetic resonance imaging.Studying Multisensory Processing and Its Role in the Representation of Space through Pathological and Physiological Crossmodal Extinction.Advanced Parkinson's disease effect on goal-directed and habitual processes involved in visuomotor associative learning.Facial Expressions Evoke Differential Neural Coupling in Macaques.Others' Sheer Presence Boosts Brain Activity in the Attention (But Not the Motivation) Network.Neuronal activity in the monkey striatum during conditional visuomotor learning.Rostro-Caudal Organization of Connectivity between Cingulate Motor Areas and Lateral Frontal Regions.Hand modulation of visual, preparatory, and saccadic activity in the monkey frontal eye field.Boosting Norepinephrine Transmission Triggers Flexible Reconfiguration of Brain Networks at Rest.Object and space perception - is it a matter of hemisphere?The helmet head restraint system: a viable solution for resting state fMRI in awake monkeys.Response selection versus feedback analysis in conditional visuo-motor learning.Probing the role of the vestibular system in motivation and reward-based attention.Adding methylphenidate to prism-adaptation improves outcome in neglect patients. A randomized clinical trial.Mind the Depth: Visual Perception of Shapes Is Better in Peripersonal SpaceAn Open Resource for Non-human Primate ImagingResting-state functional connectivity within the face processing network of normal and congenitally prosopagnosic individualsHand position modulates saccadic activity in the frontal eye fieldSulcal organization in the medial frontal cortex provides insights into primate brain evolutionAtomoxetine improves attentional orienting in a predictive contextAtomoxetine modulates the relationship between perceptual abilities and response bias
P50
Q33760132-3EC7E131-F1F7-4503-A9C1-5FF13C978666Q33779942-B1AF4FBB-941C-470D-BDB4-B85046F941E6Q35108172-40ACB730-0EF4-46BC-8A53-0B539843BA5CQ35190939-2820EEF5-EDE6-4A0F-9230-E73314893305Q35764229-33DE5B5D-64F2-4660-A123-49A7091C90D8Q35830617-3B9E56F0-AA8B-4660-B19C-6E8CA075B1EFQ35956701-60BC96F9-B8FA-4FDF-ABF0-675D8F0E2FABQ36204408-F116E2D3-5D2A-40DD-9DE8-A593C51E17D0Q36332868-7882E165-8D05-4668-85DE-E38A70D2018BQ36472583-93B055F4-F04C-4587-860D-4E17985AB7D5Q36504259-0754D55E-EC34-4ABB-970B-D7E76A5C1AE4Q36516008-A758E76D-5041-4151-AD5C-97741B01216CQ36535363-3D2D7D5E-D713-41C7-B7BD-FF10EB5B88D2Q37048145-2FAEC0E4-450E-483D-BD7F-0074F316CD11Q37131777-5ECB3036-B0E8-4AC9-8DAF-101244FA5957Q37891787-50CD93B2-95DA-4FE6-88FD-F59FF75DE8A9Q43102363-80419726-96FF-4F48-BD14-E6572264D1D7Q45025053-8CE7B541-9B2D-4AB0-8BEF-02BDC0FB23C4Q46745947-9805DFFD-C44E-4C22-B513-6373536216C1Q47392375-D1B18BE2-66BF-4941-B393-1CC73130FD48Q47836709-E92BDAC7-A586-4059-9A2F-086ECE55304CQ48088301-8FC1AE99-A90F-493F-A14A-5D842AD41779Q48527804-6FC66665-1C29-4602-B09E-8DDEE7F83798Q48715711-0EF094EA-ACB1-4372-BA53-2B799F9F0790Q48936718-A9FF288E-536C-41D5-B796-894099E259DAQ51848975-94C9E10D-8FE5-4112-9CDD-FE7678063ECEQ52316803-5D0F2EB5-3B59-44D3-8AD4-88B70FAF9EDCQ53282017-D72025F9-791D-4895-A9E8-40D732F409BFQ57031602-619D32BF-9CED-498E-90CA-45FD02D8818CQ57039680-97A822EF-EFC6-422D-9F35-586C83C6A534Q59849241-B2FA419F-570B-4A77-AD3E-183383445C88Q59849273-2DE1CB55-3F20-49D6-BE06-831424CBF357Q92322106-9A9C9D95-6236-4AB1-8E97-83F77093AFF6Q92400948-DE69AE45-0EAB-43DA-B8B3-3EF26A1DE1FAQ92439024-421113FF-6D21-4E5B-B8B0-50C4F86EBA82
P50
description
hulumtuese
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Fadila Hadj-Bouziane
@ast
Fadila Hadj-Bouziane
@en
Fadila Hadj-Bouziane
@es
Fadila Hadj-Bouziane
@nl
Fadila Hadj-Bouziane
@sl
type
label
Fadila Hadj-Bouziane
@ast
Fadila Hadj-Bouziane
@en
Fadila Hadj-Bouziane
@es
Fadila Hadj-Bouziane
@nl
Fadila Hadj-Bouziane
@sl
prefLabel
Fadila Hadj-Bouziane
@ast
Fadila Hadj-Bouziane
@en
Fadila Hadj-Bouziane
@es
Fadila Hadj-Bouziane
@nl
Fadila Hadj-Bouziane
@sl
P1053
F-6309-2016
P106
P21
P31
P496
0000-0002-5415-7949
P569
2000-01-01T00:00:00Z