about
sameAs
Neural components of topographical representationCentrosomal-ciliary gene CEP290/NPHP6 mutations result in blindness with unexpected sparing of photoreceptors and visual brain: implications for therapy of Leber congenital amaurosisThe Human Visual Cortex Response To Melanopsin-Directed Stimulation Is Accompanied By A Distinct Perceptual ExperienceEmpirical analyses of null-hypothesis perfusion FMRI data at 1.5 and 4 T.Empirical optimization of ASL data analysis using an ASL data processing toolbox: ASLtbxA critique of the use of the Kolmogorov-Smirnov (KS) statistic for the analysis of BOLD fMRI data.Perfusion fMRI for functional neuroimaging.Canine and human visual cortex intact and responsive despite early retinal blindness from RPE65 mutation.Imaging visual recognition: PET and fMRI studies of the functional anatomy of human visual recognition.The role of prefrontal cortex in sensory memory and motor preparation: an event-related fMRI study.Modulation of amygdalar activity by the conscious regulation of negative emotion.Absence of changes in cortical thickness in patients with migraine.The development and future of perfusion fMRI for dynamic imaging of human brain activity.Opponent melanopsin and S-cone signals in the human pupillary light response.A digital atlas of the dog brainThe neural response to facial attractiveness.Human CRB1-associated retinal degeneration: comparison with the rd8 Crb1-mutant mouse modelPatterns of Individual Variation in Visual Pathway Structure and Function in the Sighted and BlindThe retinotopic organization of striate cortex is well predicted by surface topologyHuman Visual Cortex Responses to Rapid Cone and Melanopsin-Directed Flicker.The Philadelphia Face Perception BatteryEmpirical analyses of BOLD fMRI statistics. I. Spatially unsmoothed data collected under null-hypothesis conditions.The fine-scale functional correlation of striate cortex in sighted and blind people.Neurocognitive contributions to verbal fluency deficits in frontotemporal lobar degenerationDifferent spatial scales of shape similarity representation in lateral and ventral LOC.de Bruijn cycles for neural decoding.Physiological origin of low-frequency drift in blood oxygen level dependent (BOLD) functional magnetic resonance imaging (fMRI).Arterial spin labeling perfusion fMRI with very low task frequency.The human visual cortex response to melanopsin-directed stimulation is accompanied by a distinct perceptual experience.Item analysis in functional magnetic resonance imaging.Face recognition turned upside-down.The variability of human, BOLD hemodynamic responses.Human prefrontal cortex is not specific for working memory: a functional MRI study.Confounding of norm-based and adaptation effects in brain responses.The effect of pacing of experimental stimuli on observed functional MRI activity.Using perfusion fMRI to measure continuous changes in neural activity with learning.The effects of parts, wholes, and familiarity on face-selective responses in MEG.The representation of parts and wholes in face-selective cortex.Adaptation decorrelates shape representationsProsopagnosia
P50
Q24600411-89722464-68AF-4190-B5E6-58BF1CA9F878Q28305398-208EF026-E320-477D-A10B-9F46638AF515Q29970191-0F034800-14BD-4CB2-9DEB-9F2436DF2AA5Q30821800-FCAA971F-AA5F-4FCF-88D2-6B14EBAB277FQ31126691-D5AE66B9-D4A8-455A-91D1-3874A563F748Q32099438-08C54035-31E8-40EF-8F33-D45AC5AB1ADCQ33230609-E205DE18-C795-43A9-8E51-9CC35E9F58F2Q33288985-9D239E50-AE7F-4CF2-B894-AD739A42CFADQ33633003-39A7588D-23DF-470C-A32C-B5F44458A27CQ33901467-1560441D-BB92-49E5-B9C7-7644728BE145Q34145534-22F9A0F0-FA18-4AB5-9F12-90B76DAD8A14Q34215690-F0272C70-D050-4D9C-AEA4-221B986A2D5FQ34259168-1741B263-4450-488F-8BB2-461162454B13Q34442033-7F6EDA82-ABBD-4311-8807-1360D0CA0F5EQ34533109-B1EF413C-1CD0-4587-8472-DC7B0761EEA3Q34955107-9004782C-1BC0-4976-97B6-57A878506CAEQ35221208-D8900AB4-101C-41BA-9502-6C9FB4991814Q36182089-819B59F2-18BA-4178-BBD4-3DAEBDC3B3A3Q36389140-DF7B4B65-486A-4F43-A109-DE49561021D1Q36534304-F1BD07A8-8FB4-4093-85F0-FDAE1DBEDD8DQ36629415-994D66DF-0738-4986-9490-28565BB7FCDBQ36888024-30C344B1-455B-45CD-87F2-F8FAA2F91214Q37220085-D04B2263-52A6-40D6-8448-E07F92E947B8Q37315553-E8C7857D-5B09-43D4-9DD4-5EA013C0F833Q37343363-8B73D1DA-7F3D-462C-937A-1B3456AC86BCQ42106337-E5374EE6-CF3B-431B-A8E2-35048E82BF74Q43863771-7C38C3D1-F0D9-4534-8C40-E0F5FB07D48FQ47963102-444C5075-9956-4B1D-BAAC-9F449193B022Q48095184-50E9E55D-6DE1-4477-96AD-7BC91856C1BBQ48249842-E9852F22-DD90-461D-8FB0-45715329E5CBQ48278817-5AC90CAE-8669-4671-98F1-1A7351AE8A93Q48352823-F1B46B6C-BDA0-4918-972D-453043F69B90Q48382650-19B0A4EF-7E42-44CA-B76F-7919155CD80DQ48626725-13CF3BAC-A3DE-47A1-8BCC-73F0F2F2B57EQ48643053-D49C4C32-F595-4040-BFE9-BC5782D3F189Q48681968-0C891B69-939D-402E-ACB8-B857D38A2E2AQ51942431-479081E2-A5A5-469D-BB48-A11509BF3537Q51966992-486314CB-D00B-4EE2-8E4F-34C33F58D234Q58719527-7A91BC33-34FA-482B-8907-7A1A0BC73ACDQ59259857-4A9BA9CE-5C47-4F77-98E4-139DB1E2AAF7
P50
description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Geoffrey Karl Aguirre
@ast
Geoffrey Karl Aguirre
@da
Geoffrey Karl Aguirre
@de
Geoffrey Karl Aguirre
@en
Geoffrey Karl Aguirre
@es
Geoffrey Karl Aguirre
@nl
Geoffrey Karl Aguirre
@sl
type
label
Geoffrey Karl Aguirre
@ast
Geoffrey Karl Aguirre
@da
Geoffrey Karl Aguirre
@de
Geoffrey Karl Aguirre
@en
Geoffrey Karl Aguirre
@es
Geoffrey Karl Aguirre
@nl
Geoffrey Karl Aguirre
@sl
altLabel
G K Aguirre
@da
G K Aguirre
@de
G K Aguirre
@en
Geoffrey K Aguirre
@da
Geoffrey K Aguirre
@de
Geoffrey K Aguirre
@en
Geoffrey K Aguirre
@nl
Geoffrey K. Aguirre
@da
Geoffrey K. Aguirre
@de
Geoffrey K. Aguirre
@en
prefLabel
Geoffrey Karl Aguirre
@ast
Geoffrey Karl Aguirre
@da
Geoffrey Karl Aguirre
@de
Geoffrey Karl Aguirre
@en
Geoffrey Karl Aguirre
@es
Geoffrey Karl Aguirre
@nl
Geoffrey Karl Aguirre
@sl
P106
P1153
7103126302
P1960
EnjWLZQAAAAJ
P2002
P21
P31
P496
0000-0002-4028-3100
P569
2000-01-01T00:00:00Z