about
Callosal connections of dorsal versus ventral premotor areas in the macaque monkey: a multiple retrograde tracing study.Multivoxel pattern analysis for FMRI data: a reviewPrimate premotor cortex: modulation of preparatory neuronal activity by gaze angleRole of Anterior Cingulate Cortex in Instrumental Learning: Blockade of Dopamine D1 Receptors Suppresses Overt but Not Covert Learning.Gaze effects in the cerebral cortex: reference frames for space coding and action.Projections of the claustrum to the primary motor, premotor, and prefrontal cortices in the macaque monkey.Vicarious neural processing of outcomes during observational learningConditional visuo-motor learning in primates: a key role for the basal ganglia.Social learning as a way to overcome choice-induced preferences? Insights from humans and rhesus macaques.Conditional visuo-motor learning and dimension reduction.Insight in schizophrenia: from conceptualization to neuroscience.Understanding the neural computations of arbitrary visuomotor learning through fMRI and associative learning theory.High gamma frequency oscillatory activity dissociates attention from intention in the human premotor cortex.Social and asocial prefrontal cortex neurons: a new look at social facilitation and the social brain.Role of the cat substantia nigra pars reticulata in eye and head movements. I. Neural activity.Advanced Parkinson's disease effect on goal-directed and habitual processes involved in visuomotor associative learning.Differential roles of caudate nucleus and putamen during instrumental learning.Hand position affects saccadic reaction times in monkeys and humans.Prehension movements in the macaque monkey: effects of perturbation of object size and location.Neuronal activity in the monkey striatum during conditional visuomotor learning.Hand modulation of visual, preparatory, and saccadic activity in the monkey frontal eye field.Neuronal activity related to eye-hand coordination in the primate premotor cortex.Learning by observation in rhesus monkeys.Learning by observation in the macaque monkey under high experimental constraints.Effects of gaze on apparent visual responses of frontal cortex neurons.Eye position effects on the neuronal activity of dorsal premotor cortex in the macaque monkey.Dual morphology and topography of the corticothalamic terminals originating from the primary, supplementary motor, and dorsal premotor cortical areas in macaque monkeys.Activity of neurons in the cat substantia nigra pars reticulata during drinking.Parietal inputs to dorsal versus ventral premotor areas in the macaque monkey: evidence for largely segregated visuomotor pathways.Role of the cat substantia nigra pars reticulata in eye and head movements. II. Effects of local pharmacological injections.Attention versus intention in the primate premotor cortex.I learned from what you did: Retrieving visuomotor associations learned by observation.Neurophysiological correlates of visuo-motor learning through mental and physical practice.Visuo-motor learning with combination of different rates of motor imagery and physical practice.Estimating the hidden learning representations.Hand position modulates saccadic activity in the frontal eye fieldTobacco status, impulsivity, and the five-factor of the PANSS in paranoid schizophreniaFunctional connectivity during real vs imagined visuomotor tasks: an EEG studyHand kinematics during reaching and grasping in the macaque monkeyThe premotor cortex and nonstandard sensorimotor mapping
P50
Q21093346-CFACAA9A-25C6-45A0-A35B-0A072714E46BQ26829721-BC60784D-B170-4A4A-860F-6AA1E52FF02BQ28302047-8A8BDD1E-D414-4A86-8074-76DD5ACB5738Q30850437-6F3D5C19-AD1F-4825-BB0A-860026364B46Q33726452-E06DB25A-9F8B-4834-B80C-4267BFF285C7Q34157366-C7D56B42-56F5-46BD-8F82-20DD64F0EEF9Q34989455-86C2AB7A-3CD5-441F-ADF7-43A9FA781F45Q35830617-EE8E21C7-30BC-4700-8893-A810778D3FE1Q36204408-957A51D1-3CC3-4B48-8745-429A51F8DCEBQ36472583-1B032DE3-E30D-40BE-97CC-08764F7103C6Q37996450-EF40092B-281A-419D-ABB1-E3863E703DC8Q40151244-3D10BC85-CB82-4BF1-9C31-5739CCB0E2D3Q40404880-679BF737-AC71-44D3-9CE3-3DAE2C08DBE8Q41113746-A34B6CEB-0FAF-4B17-B61A-DF0282C3FC32Q42436441-B6B8AD19-33E5-427A-A298-F227E1105DEBQ43102363-088AFD70-4B17-4DA8-A7E2-A7B2986FF9A4Q43881547-86C538A5-E25B-497E-B9DC-F4927D17101EQ43967031-7F61643E-6E70-4199-A58A-7F110F70642BQ47358894-FBADA2AE-3619-4B6C-AB5C-9C35B663F9FDQ47392375-A5BCDA6C-3099-4123-B778-750A2CDD7A97Q48088301-C6274315-5C0A-4871-A134-42F47C789C20Q48120216-73CE8D46-4925-4E46-B75A-2B6219F0B5AEQ48134903-C78AA6AA-7FA1-4DD6-BCC5-8CF19250EF4FQ48197489-6F447C4E-D75A-406A-B1A0-C29F3D0056EBQ48349093-F608F4EC-9EB6-4551-A07C-EC4B9448F3F3Q48392028-2C59BC85-07E9-439F-B106-EC87F2D3763DQ48444233-B0E68436-CB1D-487D-A6DF-D0E508CCE644Q48545105-EC5B0178-1E3D-4B2E-88D3-AEFCC31219CDQ48575538-F9C0D58F-1B20-4BD3-A919-4ADEF9F2B272Q48580531-2A06A082-5F9C-4E42-ADD2-34D047D10410Q48870658-23A90E25-13A8-4D7A-8803-21BBC8B0DFC6Q49139086-C09B99DE-A13A-465A-9237-36C3BEA98D34Q50667504-4E04744D-01BF-45C1-8F94-D95C03C4B93FQ51899535-36E7CBE8-1631-4003-9FF8-90CE60376C73Q51900168-9F9C3D26-6775-453B-B4CC-BE22D2D8147FQ59849273-19EB6BC2-4402-451F-8A88-EEEA2E88F2EDQ63952386-3AEFBB12-2088-4EF6-9CF2-043FC86548E6Q63952387-AE6998A2-4846-407B-BF51-F30748A7FDE7Q63952389-78B9F8BE-699F-4D28-8891-80D8BF9ACB01Q63952392-1154D9A6-D59B-4DDD-A3E4-228C4EF22B3C
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Driss Boussaoud
@ast
Driss Boussaoud
@en
Driss Boussaoud
@es
Driss Boussaoud
@nl
type
label
Driss Boussaoud
@ast
Driss Boussaoud
@en
Driss Boussaoud
@es
Driss Boussaoud
@nl
prefLabel
Driss Boussaoud
@ast
Driss Boussaoud
@en
Driss Boussaoud
@es
Driss Boussaoud
@nl
P106
P1153
7003385285
P21
P31
P496
0000-0002-7295-2890