Top-down flow of visual spatial attention signals from parietal to occipital cortex.
about
Windows to the soul: vision science as a tool for studying biological mechanisms of information processing deficits in schizophreniaDissociating inhibition, attention, and response control in the frontoparietal network using functional magnetic resonance imagingSpatiotopic coding of BOLD signal in human visual cortex depends on spatial attentionSpatial attention improves reliability of fMRI retinotopic mapping signals in occipital and parietal cortex.Imaging retinotopic maps in the human brain.CNTRICS final biomarker selection: Control of attention.Differential roles for parietal and occipital cortices in visual working memory.Increased functional connectivity between dorsal posterior parietal and ventral occipitotemporal cortex during uncertain memory decisionsNeural representations of relevant and irrelevant features in perceptual decision making.Functional connectivity during top-down modulation of visual short-term memory representations.Delayed effects of attention in visual cortex as measured with fMRIAttentional modulation and selection--an integrated approach.Visuotopic cortical connectivity underlying attention revealed with white-matter tractography.A Feedback Model of Attention Explains the Diverse Effects of Attention on Neural Firing Rates and Receptive Field Structure.Visual attention: the past 25 yearsThe influence of posterior parietal cortex on extrastriate visual activity: A concurrent TMS and fast optical imaging study.Retinotopic patterns of correlated fluctuations in visual cortex reflect the dynamics of spontaneous perceptual suppression.Dynamic activation of frontal, parietal, and sensory regions underlying anticipatory visual spatial attention.Deficits in Visual System Functional Connectivity after Blast-Related Mild TBI are Associated with Injury Severity and Executive Dysfunction.The representation of tool and non-tool object information in the human intraparietal sulcusFunctional organization of human posterior parietal cortex: grasping- and reaching-related activations relative to topographically organized cortex.Connectivity-based neurofeedback: dynamic causal modeling for real-time fMRI.Frontoparietal mechanisms supporting attention to location and intensity of painful stimuliFunctional heterogeneity in posterior parietal cortex across attention and episodic memory retrieval.Human fronto-parietal and parieto-hippocampal pathways represent behavioral priorities in multiple spatial reference framesAttentional enhancement of spatial resolution: linking behavioural and neurophysiological evidence.Sensory processing: who's in (top-down) control?A biased competition account of attention and memory in Alzheimer's disease.Neuronal networks in the developing brain are adversely modulated by early psychosocial neglect.A brief comparative review of primate posterior parietal cortex: A novel hypothesis on the human toolmaker.Visual attention spreads broadly but selects information locally.Differential roles for frontal eye fields (FEFs) and intraparietal sulcus (IPS) in visual working memory and visual attention.Bottom-up and top-down computations in word- and face-selective cortex.Activity patterns in the category-selective occipitotemporal cortex predict upcoming motor actions.Attention model of binocular rivalry.Top-down cortical interactions in visuospatial attention.Interhemispheric differences of fMRI responses to visual stimuli in patients with side-fixed migraine aura.Retinotopy and attention to the face and house images in the human visual cortex.Neural Correlates of Drug-Related Attentional Bias in Heroin Dependence.Binocular rivalry transitions predict inattention symptom severity in adult ADHD.
P2860
Q26999303-FB114B1C-8205-422B-A9AD-17027F1E61E6Q28294924-EF9AE0C7-BBF5-4680-8F07-D1B45CC2EA14Q30474848-9293AE57-7971-4772-ACDA-07EBAA565C60Q30496334-D1016FAA-E86D-44A7-B60C-77A011E2CA68Q33652070-F61CBCC3-B1E4-4C30-8B5E-7518543C389AQ33963429-4F9520DA-2D7D-4CE2-BC2A-2FAB2FB73300Q34297144-77D0FA10-B171-498D-92B7-6B68857239F4Q34483883-8B258F91-2EDA-4222-9870-CBD4A20E44C1Q34488166-B5FEA976-7DC3-44C6-82FA-3B764A679063Q34892714-E1A5A8AA-4545-426A-B8A9-DA4D306FEBDBQ35085749-4DAA2DB4-5C8F-4295-8AD5-7D01222FDCAAQ35194654-4E983707-2892-4071-92A9-96053F67B5CDQ35876870-EE497784-2BA8-4162-85D7-91B3DA418DBAQ35927246-DCB28CC3-736F-40EE-A476-6677F3E7E290Q36077550-6BC6A5BF-B1DF-4295-BCB9-E9FA26390D7EQ36524323-D8E66752-599F-4D47-9870-ABF12A9BB7D6Q36718620-CD96FC25-7F24-4FDD-8076-6D709966DF9DQ36901633-F277462F-DC9D-400E-8632-081ADA066083Q36918781-6FF13940-D608-4EAA-B5A2-25A1E9CD64DDQ36924114-1A57B95A-35BD-4F47-A45E-330F622444BEQ36924122-76239DFF-92AE-42DC-8AB3-E09C063A47B6Q37072183-41814FF7-0C44-42B6-BFC1-664D232E7FB8Q37128856-E432E2FA-4D71-43B7-856A-00E49AB8C757Q37390215-52EF51B8-357B-4FAF-A2A5-381BBC6161D8Q37534337-99B23D9C-193E-4ECA-B5F3-242C644540AFQ37688766-59DD0B44-214F-4C86-82DF-ADCE9CC5FB7AQ38126098-F3B9461B-2EB3-4278-BBE3-CA19962E66DEQ38135718-9C77237A-B381-4067-BED9-751259AE7E95Q38692270-E07270C2-F547-4643-A374-E306178E1F4AQ39118782-0E9BEB9D-E3F5-440A-BEBF-8BF0DE4B9850Q41497445-597A90B9-C4B4-4DFA-96CA-BC1059CB5774Q41686454-A83D17E6-9BD7-4D7B-8C93-AFA929579D8EQ42315170-0E40DE71-43AF-4244-A237-2B815746CC6CQ45772470-C99A8BEE-F5BD-449E-B437-2285D54A5A87Q47770583-BDCACB70-CA93-4B61-A115-718C611603D0Q47771318-34C73B1A-19D7-426D-8D0D-4692DF57B05DQ48425538-C42EE3F1-1C12-40C9-9FA2-0FA1B5F60E99Q48932303-E70335E8-5E2E-436C-BC75-96E9EF374430Q49206520-C501A055-4DD9-4006-8C3A-B9D3AAE20F5FQ50728200-90771DF1-9E89-47DB-9ECB-0F304539774B
P2860
Top-down flow of visual spatial attention signals from parietal to occipital cortex.
description
2009 nî lūn-bûn
@nan
2009年の論文
@ja
2009年論文
@yue
2009年論文
@zh-hant
2009年論文
@zh-hk
2009年論文
@zh-mo
2009年論文
@zh-tw
2009年论文
@wuu
2009年论文
@zh
2009年论文
@zh-cn
name
Top-down flow of visual spatial attention signals from parietal to occipital cortex.
@en
type
label
Top-down flow of visual spatial attention signals from parietal to occipital cortex.
@en
prefLabel
Top-down flow of visual spatial attention signals from parietal to occipital cortex.
@en
P2093
P2860
P356
P1433
P1476
Top-down flow of visual spatial attention signals from parietal to occipital cortex.
@en
P2093
David J Heeger
Mark D'Esposito
Michael A Silver
Thomas Z Lauritzen
P2860
P304
P356
10.1167/9.13.18
P577
2009-12-16T00:00:00Z