about
The Extrastriate Body Area Computes Desired Goal States during Action PlanningNeural mechanisms of communicative innovation.Primate comparative neuroscience using magnetic resonance imaging: promises and challenges.Communicative knowledge pervasively influences sensorimotor computations.Endogenous testosterone modulates prefrontal-amygdala connectivity during social emotional behaviorCerebral coherence between communicators marks the emergence of meaning.Causal manipulation of functional connectivity in a specific neural pathway during behaviour and at restComparing brains by matching connectivity profiles.The extreme capsule fiber complex in humans and macaque monkeys: a comparative diffusion MRI tractography study.Is the extrastriate body area part of the dorsal visuomotor stream?Conceptual Alignment: How Brains Achieve Mutual Understanding.Parieto-frontal connectivity during visually guided grasping.Is this hand for real? Attenuation of the rubber hand illusion by transcranial magnetic stimulation over the inferior parietal lobule.Understanding communicative actions: a repetitive TMS study.Reduced serotonin transporter availability decreases prefrontal control of the amygdala.Simultaneous representation of a spectrum of dynamically changing value estimates during decision making.Hierarchical organization of parietofrontal circuits during goal-directed action.The role of immediate and final goals in action planning: an fMRI study.Cortical dynamics of sensorimotor integration during grasp planning.Anterior prefrontal cortex inhibition impairs control over social emotional actions.The rubber hand illusion in action.Are there species-universal categories in bird song phonology and syntax? A comparative study of chaffinches (Fringilla coelebs), zebra finches (Taenopygia guttata), and swamp sparrows (Melospiza georgiana).Perceptuo-motor interactions during prehension movements.Whole brain comparative anatomy using connectivity blueprints.Book review: Foraging with a prefrontal cortex makes all the difference.Offline impact of transcranial focused ultrasound on cortical activation in primatesWhat is special about the human arcuate fasciculus? Lateralization, projections, and expansionThe Human Ventromedial Prefrontal Cortex: Sulcal Morphology and Its Influence on Functional OrganizationManipulation of Subcortical and Deep Cortical Activity in the Primate Brain Using Transcranial Focused Ultrasound StimulationDichotomous organization of amygdala/temporal-prefrontal bundles in both humans and monkeysHuman Lateral Frontal Pole Contributes to Control over Emotional Approach-Avoidance ActionsThe macaque anterior cingulate cortex translates counterfactual choice value into actual behavioral changeMapping multiple principles of parietal-frontal cortical organization using functional connectivity
P50
Q30386211-E50E6EC3-64A2-46E4-B855-5967C79BE7AEQ30544334-719A149A-B8CB-4FB9-8E17-15970BAE8C6DQ30863745-33C6C791-79EB-485B-81EF-77439BDC1B42Q33842957-7B804382-209D-440F-85DC-67CE92D0BD4BQ34166033-F65B4777-499A-4182-8B5F-80025D105A31Q34793465-3D21AB32-3D68-471B-A795-EA436900CA37Q35157935-8463A648-A197-4E79-BFFB-A04B3AFC3BB1Q35858052-2AA0DFDB-DF2B-4FEF-BF87-4B917504F40FQ37342349-A39F4701-2467-4E5E-A25C-21A9FBD03AF8Q38429946-3E151CF0-EAEB-420C-AC04-119E54DB9C60Q38705098-16F2D504-C2F5-4A85-8595-074B95E8308BQ42155689-20ED90D8-D6F9-488C-88B3-71C2A4BA1F9AQ43427651-A776BD1C-1509-464F-B05C-3BCB0ABB7ACCQ45211124-7C9E0517-C495-4367-8D51-FE2123479322Q46667242-D292517F-FDA2-49F2-AC31-417D2548D8FAQ47129904-AA4E802C-D6C2-41A5-BBB2-B8603B4644E5Q47898394-33F3D5E8-3510-40D6-9AAD-8D442BA02E88Q48128178-2E765A0D-584D-458E-B02B-32241263A456Q48593451-4D168242-61C7-485D-BD32-968C665DF110Q48839489-041A5DAA-A68E-4B3F-8B28-A3CF5E792105Q48943208-E8138DED-7F7F-4DA4-90ED-B19FFD94DDA7Q51719393-3F5B0EAF-AE2A-4927-9231-CFEB2664C254Q53037673-330604C6-345B-4E6F-A2F8-513DCCAFE9E3Q55253261-BEAF491A-2825-4441-B95F-9AC97884F5F5Q55451547-DF1FD435-0E32-4C3B-9F63-A7CB72FB056FQ61796586-890805E1-4076-44AD-B4E6-BA9C75F7430BQ63952255-A3CBC385-7F3F-49DB-9370-61CB48BDB282Q64062308-C0292E0F-4A21-4A52-818B-10E3F9C67E48Q64072049-497412BA-B04E-431C-B747-76E0D47F2329Q83227450-AABDE721-181B-4432-811C-28B57C8A8356Q89601498-456EE030-68F8-4992-9CDA-849BFCC41449Q93112804-619E64A1-78FF-4CB0-9EC8-D63E84D175E6Q93337141-34D8E117-13C2-4C63-8B47-B45315A14B47
P50
description
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Lennart Verhagen
@ast
Lennart Verhagen
@en
Lennart Verhagen
@es
Lennart Verhagen
@nl
type
label
Lennart Verhagen
@ast
Lennart Verhagen
@en
Lennart Verhagen
@es
Lennart Verhagen
@nl
altLabel
Verhagen L
@en
prefLabel
Lennart Verhagen
@ast
Lennart Verhagen
@en
Lennart Verhagen
@es
Lennart Verhagen
@nl
P1053
D-1070-2013
P106
P1153
21834609700
P31
P496
0000-0003-3207-7929