about
Monetary Incentives Enhance Processing in Brain Regions Mediating Top-down Control of AttentionAttention to odor modulates thalamocortical connectivity in the human brainDevelopmental changes in activation and effective connectivity in phonological processing.Development of brain mechanisms for processing orthographic and phonologic representations.EEG measures index neural and cognitive recovery from sleep deprivationNeural correlates of sexual arousal in homosexual and heterosexual men.Adult polyglucosan body disease with GBE1 haploinsufficiency and concomitant frontotemporal lobar degenerationChronic back pain is associated with decreased prefrontal and thalamic gray matter density.Selective impairment of morphosyntactic production in a neurological patient.An fMRI Study of the Interactions Between the Attention and the Gustatory NetworksVasectomy in men with primary progressive aphasia.When the sense of smell meets emotion: anxiety-state-dependent olfactory processing and neural circuitry adaptationBrain networks for analyzing eye gaze.The anterior insular cortex represents breaches of taste identity expectation.Basolateral amygdala response to food cues in the absence of hunger is associated with weight gain susceptibilityChildhood-onset lupus with clinical neurocognitive dysfunction shows lower streamline density and pairwise connectivity on diffusion tensor imagingImproving clinical cognitive testing: report of the AAN Behavioral Neurology Section Workgroup.Olfactory-visual integration facilitates perception of subthreshold negative emotion.Effects of acute levodopa challenge on resting cerebral blood flow in Parkinson's Disease patients assessed using pseudo-continuous arterial spin labeling.Reduced prefrontal activation during working and long-term memory tasks and impaired patient-reported cognition among cancer survivors postchemotherapy compared with healthy controls.Neural correlates of verb argument structure processing.Clinical Reasoning: a woman with rapidly progressive apraxiaFunctional neuronal network activity differs with cognitive dysfunction in childhood-onset systemic lupus erythematosusThe spatial attention network interacts with limbic and monoaminergic systems to modulate motivation-induced attention shiftsWeaker top-down modulation from the left inferior frontal gyrus in children.Neuropathology of Autosomal Dominant Alzheimer Disease in the National Alzheimer Coordinating Center Database.Neural correlates of evaluative compared with passive tasting.Altered effective connectivity within the language network in primary progressive aphasia.Language network specializations: an analysis with parallel task designs and functional magnetic resonance imaging.Primary progressive aphasia: PPA and the language network.Effective connectivity and intersubject variability: using a multisubject network to test differences and commonalities.Neural correlates of artificial grammar learning.The development of specialized brain systems in reading and oral-language.Modality independence of word comprehension.Functional anatomy of visual search: regional segregations within the frontal eye fields and effective connectivity of the superior colliculus.Dynamic allocation of attention in aging and Alzheimer disease: uncoupling of the eye and mind.Pilot trial of memantine in primary progressive aphasia.ILAB: a program for postexperimental eye movement analysis.Filtering of distractors during visual search studied by positron emission tomography.Modeling regional and psychophysiologic interactions in fMRI: the importance of hemodynamic deconvolution.
P50
Q29013920-838F463E-CF64-4207-AFE6-D7048F39F838Q30488464-27DCBFFA-4988-4380-A155-A7F3A103E2E4Q30491388-3580667E-39F4-4162-8344-3BEE32887C60Q30501706-63E3E088-737F-48DC-A17A-414AB69C53A9Q33714665-B5F27281-137E-461F-99E5-96C2897BB223Q34003860-FB1BF43D-22F5-40B7-8C07-1A8ECC0C2687Q34254538-54DCF279-2660-4113-988A-37CB8524E74AQ34368706-5480D9E4-0345-4DDC-8F8A-19365314F46EQ34517643-4B0AF73D-0B9E-4407-86B8-A5C45D356EF0Q34550814-CC114F5C-CAFE-4800-BFAF-52B8290728FFQ34589638-C7A126D3-CA46-4153-84F1-3C4D953F9F56Q34656260-50810114-4D00-44F5-BC5A-52552249C736Q35136659-C411E698-C28B-4FD3-94F4-F471B8353DB9Q35566236-256D8369-D1B0-4522-A886-DD9D9F93728BQ35625771-3DEC9F1C-6EC5-4FAD-9620-546019C5995EQ35930620-DE8EB677-3C8A-4B4F-A81B-9358E2173392Q36027894-A5EA3ADB-A3FD-47C8-BC86-D506EB4C5EB4Q36424570-0B366AE5-2DA8-4758-BAC9-F5440BBE7F35Q36426177-2804A0BA-C5D3-48E1-AECC-2C2DFA130D71Q36450200-76E17654-1BAC-4347-82F6-405F0BA1201EQ36477297-7C70C12E-B079-4822-9A4B-374C5EC9FC8AQ36869901-D43D8376-34D6-4C86-A8E9-8ACE16239AFBQ36903166-A23900D1-B584-49DA-915F-A4F783850FB4Q36936958-F33AF084-5C0C-4F33-AD37-A0DC095BBEE6Q37041626-EE4A0045-8179-4A3D-B4FF-91202D013B91Q37069525-3D933196-E20F-4C9C-8051-C702874A9D48Q37419590-F3B85D53-DF27-49CD-A58D-0F4995DCA154Q38399563-D52CD947-63AF-4461-A46D-1EFBC52DDE3FQ38415316-E59CAD53-144C-4332-93E1-EA3321192C8CQ38430618-6256CD8A-11C9-4C48-AEED-FC2C89C43D17Q38431860-17F94D31-A1D1-4EB7-9BBF-17FD012DDCCCQ38431868-43571266-3313-4658-BCCE-5A2F828EDD5EQ38432884-8AA4584E-A16D-44F5-A010-DD2FDB153564Q38433474-F16CB122-93F5-400C-8951-D89519C8F698Q38836699-86650342-0C52-4027-B365-D61B6C7B73A4Q39579583-0BE7E7F6-6FDD-4E1F-9761-2BA697E0C7DAQ42174377-6C36447B-2874-4E8A-9FB5-27B0F7638068Q42694089-AC06D726-7CA6-4FFC-8693-3AA638499F24Q44118845-8108BD27-B936-441A-BB44-988959ABC35BQ47867775-5ABFF228-7284-4CCD-AF57-DCCC10782723
P50
description
researcher, ORCID id # 0000-0001-6057-5605
@en
wetenschapper
@nl
name
Darren R Gitelman
@ast
Darren R Gitelman
@en
Darren R Gitelman
@nl
type
label
Darren R Gitelman
@ast
Darren R Gitelman
@en
Darren R Gitelman
@nl
prefLabel
Darren R Gitelman
@ast
Darren R Gitelman
@en
Darren R Gitelman
@nl
P106
P2456
P31
P496
0000-0001-6057-5605