about
Intrasaccadic perception triggers pupillary constrictionThe cortical organization of speech processing: feedback control and predictive coding the context of a dual-stream model.Vision, Perception, and Attention through the Lens of Microsaccades: Mechanisms and ImplicationsNeural syntax: cell assemblies, synapsembles, and readers.Encoding of naturalistic optic flow by motion sensitive neurons of nucleus rotundus in the zebra finch (Taeniopygia guttata).Human occipital cortices differentially exert saccadic suppression: Intracranial recording in childrenSaccadic modulation of stimulus processing in primary visual cortexNeuronal mechanisms for visual stability: progress and problems.A circuit for saccadic suppression in the primate brain.Multisensory space: from eye-movements to self-motion.Spatiotopic coding and remapping in humans.Microsaccadic suppression of visual bursts in the primate superior colliculus.Multiple components of ganglion cell desensitization in response to prosthetic stimulationThalamic pathways for active vision.An equivalent noise investigation of saccadic suppression.Adaptive allocation of vision under competing task demands.A lack of anticipatory remapping of retinotopic receptive fields in the middle temporal areaVisual perception and saccadic eye movementsEffects of saccades on visual processing in primate MSTd.Dynamics of eye-position signals in the dorsal visual system.Similarity of superior colliculus involvement in microsaccade and saccade generationSaccade-induced image motion cannot account for post-saccadic enhancement of visual processing in primate MSTReal-time computer-based visual feedback improves visual acuity in downbeat nystagmus - a pilot study.Brain rhythms and neural syntax: implications for efficient coding of cognitive content and neuropsychiatric disease.The Dorsal Visual System Predicts Future and Remembers Past Eye PositionThe postsaccadic unreliability of gain fields renders it unlikely that the motor system can use them to calculate target position in spaceIntrasaccadic suppression is dominated by reduced detector gain.Eye-position signals in the dorsal visual system are accurate and precise on short timescales.Saccades during visual exploration align hippocampal 3-8 Hz rhythms in human and non-human primates.Saccadic eye movement applications for psychiatric disorders.Distinct fMRI Responses to Self-Induced versus Stimulus Motion during Free Viewing in the Macaque.The role of contrast adaptation in saccadic suppression in humans.Counterproductive effect of saccadic suppression during attention shifts.Encoding visual information in retinal ganglion cells with prosthetic stimulation.Mechanisms for generating and compensating for the smallest possible saccades.The role of the cerebellum in saccadic adaptation as a window into neural mechanisms of motor learning.Perisaccadic visual perception.Attenuation of visual reafferent signals in the parietal cortex during voluntary movement.Suppression and reversal of motion perception around the time of the saccade.Neural correlate of spatial (mis-)localization during smooth eye movements
P2860
Q21128750-D6B10B24-2F43-4F65-A81E-9C0021BC21BDQ24629847-53A93CFA-775E-45C2-AD01-8242C4883E41Q26773134-F7531C8A-7C22-47E6-AB46-6C4D27FED8CBQ30497706-C2C320EF-B3A6-44A0-BD6D-82BFB4D570B3Q30545708-B161E84D-7F7C-40E4-868D-B8A393051B14Q30556610-BA91EB3F-5EBF-46A7-8849-2F3E8FA2C92DQ30664610-6BC7F0D9-B3BE-47D3-8461-0A79FE76A931Q33350482-EBDE4B8C-D471-442D-9BC3-9DB0AC26AD96Q33364454-655BF2A7-B1E4-4D48-A26F-8BC40762A837Q33710422-4D3B9466-B40A-4C4D-9E76-20510F5D5E71Q33795528-6799433B-AFD3-4216-9520-14074BB17BE1Q34071026-FF962F6E-16BC-4886-9B91-CBD5151487A4Q34621621-3D32A34F-79A1-49FA-ADE8-FD79B567A66FQ34762375-5203B16D-5123-49D6-893C-3977644577CAQ34920373-0608CA36-4F25-4DD5-89A5-57B55309F9A7Q35008006-1DBC6C8D-EE3E-4DEC-9424-F9322CD02A32Q35176816-B72A1732-5830-4C63-9AA5-9078E44EFDDBQ35219052-DB233C51-3B56-4C74-93F5-2F6D2B4C0821Q35219405-3B7EEB70-994B-4B4C-B03A-45E3B198F1D0Q35751299-416F3CA9-FFE1-4452-8BC1-3E57C7C19BF8Q35902603-396B7E09-CCCD-4145-9B9C-630F9E8E9470Q36012020-B546D297-2B7D-4893-BD0A-04C2758785B8Q36428360-88EA2891-4961-40CC-B72B-CBCD31EA548CQ36558009-0909CB8A-CF65-4D32-B67D-F4B3E21DA523Q36610456-E2BA9F7D-3F9E-402B-BB01-B05EE00BAA7AQ36905062-9E209532-9D9A-4974-8A01-F11661BB8A68Q36991395-70BCA24C-45D6-4184-A6B0-152A071D494EQ37041587-5898AD8E-1C03-464F-945C-E9DD066D76EFQ37132521-A8F65706-CD0D-44D1-BFCD-E27C994111EEQ37198428-F7E91F74-CCA7-43E5-8FA8-26C3AD44EBBBQ37290145-96FCD871-D0B3-4660-BC10-D68C1E7EFD19Q37505791-FBE46441-88A6-43D0-9199-95B08134931DQ37510286-75752F5B-BAA8-494F-A90E-A95080B2A0DFQ37877085-52B94FD7-470C-4C3A-A2F5-0529E5949C0FQ37885422-9C73518C-6DCF-45A2-8154-11D77ED681E6Q37885425-72F671C3-7B5E-481B-BC3C-8F75E2C5A156Q38609895-1A77DD6D-F0CC-46E3-BC02-C18105514C36Q39552209-EEC834C3-2D36-4C8D-9000-F17176F99A8DQ40306018-791B8EAE-FE82-48E1-BF47-645330DA38D4Q41640956-62AAE208-9508-41ED-9ABF-F8D30A4C1012
P2860
description
2009 nî lūn-bûn
@nan
2009 թուականի Հոկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2009 թվականի հոտեմբերին հրատարակված գիտական հոդված
@hy
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
name
Neural dynamics of saccadic suppression
@ast
Neural dynamics of saccadic suppression
@en
type
label
Neural dynamics of saccadic suppression
@ast
Neural dynamics of saccadic suppression
@en
prefLabel
Neural dynamics of saccadic suppression
@ast
Neural dynamics of saccadic suppression
@en
P2093
P2860
P1476
Neural dynamics of saccadic suppression
@en
P2093
Frank Bremmer
Klaus-Peter Hoffmann
Michael Kubischik
P2860
P304
12374-12383
P356
10.1523/JNEUROSCI.2908-09.2009
P407
P577
2009-10-01T00:00:00Z