| scholarly article | Q13442814 |
| P50 | author | Lynne Kiorpes | Q125266564 |
| Marisa Carrasco | Q16973893 | ||
| P2093 | author name string | R Theodore Smith | |
| Rachel Cymerman | |||
| Mariel Roberts | |||
| P2860 | cites work | Amblyopic Deficit Beyond the Fovea: Delayed and Variable Single-Trial ERP Response Latencies, but Unaltered Amplitudes | Q62381867 |
| Amblyopia: the normal eye is not normal | Q68751952 | ||
| Contrast sensitivity in amblyopia. II. Changes during pleoptic treatment | Q69739968 | ||
| Resolution of gratings oriented along and across meridians in peripheral vision | Q70481911 | ||
| Modification of parietal association cortex and functional blindness after binocular deprivation in young monkeys | Q70725450 | ||
| Is the spatial deficit in strabismic amblyopia due to loss of cells or an uncalibrated disarray of cells? | Q72563626 | ||
| BOLD fMRI response of early visual areas to perceived contrast in human amblyopia | Q73054500 | ||
| Position jitter and undersampling in pattern perception | Q77793119 | ||
| Covert attention affects the psychometric function of contrast sensitivity | Q77884507 | ||
| Comparing the time course and efficacy of spatial and feature-based attention | Q79333675 | ||
| How attention enhances spatial resolution: evidence from selective adaptation to spatial frequency | Q79414450 | ||
| Temporal performance fields: visual and attentional factors | Q79878604 | ||
| Identify mechanisms of amblyopia in Gabor orientation identification with external noise | Q80099271 | ||
| Neuroimaging of amblyopia and binocular vision: a review | Q21558384 | ||
| Orienting of attention | Q28282162 | ||
| The reorienting system of the human brain: from environment to theory of mind | Q29616229 | ||
| Bingo! Externally supported performance intervention for deficient visual search in normal aging, Parkinson's disease, and Alzheimer's disease. | Q30459614 | ||
| Cross-modal cueing of attention alters appearance and early cortical processing of visual stimuli | Q30480901 | ||
| Deficient binocular combination reveals mechanisms of anisometropic amblyopia: signal attenuation and interocular inhibition | Q30512970 | ||
| Neuroimaging in human amblyopia | Q31033429 | ||
| A population-coding model of attention's influence on contrast response: Estimating neural effects from psychophysical data | Q33377353 | ||
| Neural mechanisms underlying amblyopia | Q33711498 | ||
| Binocular combination in anisometropic amblyopia | Q33817917 | ||
| Visual performance fields: frames of reference | Q34023556 | ||
| Linking assumptions in amblyopia | Q34037562 | ||
| Visual motion processing by neurons in area MT of macaque monkeys with experimental amblyopia | Q34193028 | ||
| The pattern of visual deficits in amblyopia | Q34216206 | ||
| Stereopsis and amblyopia: A mini-review | Q34460690 | ||
| Visual processing in amblyopia: human studies | Q34499151 | ||
| When size matters: attention affects performance by contrast or response gain | Q34683175 | ||
| Speed of visual processing increases with eccentricity | Q34796460 | ||
| Strabismic amblyopia. Part 2. Neural processing | Q35020597 | ||
| Treated amblyopes remain deficient in spatial vision: a contrast sensitivity and external noise study | Q39135174 | ||
| Attention speeds processing across eccentricity: feature and conjunction searches | Q40604625 | ||
| Mechanisms of perceptual attention in precuing of location | Q41733076 | ||
| Critical periods and amblyopia | Q41752915 | ||
| Sustained and transient covert attention enhance the signal via different contrast response functions | Q41909952 | ||
| Attention trades off spatial acuity | Q42109506 | ||
| Current concepts in the management of amblyopia. | Q42111812 | ||
| On the automaticity and flexibility of covert attention: a speed-accuracy trade-off analysis | Q42158494 | ||
| Voluntary attention increases perceived spatial frequency | Q42422153 | ||
| Visual processing of rapidly presented stimuli is normalized in Parkinson's disease when proximal stimulus strength is enhanced. | Q44624526 | ||
| Improvement of visual acuity by spatial cueing: a comparative study in human and non-human primates | Q44882822 | ||
| On the effective number of tracked trajectories in amblyopic human vision | Q44980961 | ||
| The attentional blink in amblyopia | Q46082592 | ||
| Noise exclusion in spatial attention | Q46509437 | ||
| Characterizing the mechanisms of improvement for position discrimination in adult amblyopia | Q46564267 | ||
| External noise distinguishes attention mechanisms | Q46674369 | ||
| A window into visual cortex development and recovery of vision: Introduction to the Vision Research special issue on Amblyopia. | Q46762437 | ||
| Central and peripheral contrast sensitivity in amblyopia with varying field size | Q47232304 | ||
| The sensitive period | Q48129504 | ||
| Assessment of cortical dysfunction in human strabismic amblyopia using magnetoencephalography (MEG). | Q48200769 | ||
| Cortical deficits in human amblyopia: their regional distribution and their relationship to the contrast detection deficit | Q48227177 | ||
| Neuronal correlates of amblyopia in the visual cortex of macaque monkeys with experimental strabismus and anisometropia. | Q48414528 | ||
| Selective fovea-related deprived activation in retinotopic and high-order visual cortex of human amblyopes | Q48443353 | ||
| Low- and high-level motion perception deficits in anisometropic and strabismic amblyopia: evidence from fMRI. | Q48498796 | ||
| Reduced activity in the extrastriate visual cortex of individuals with strabismic amblyopia | Q48729050 | ||
| Neural correlates of the multiple-object tracking deficit in amblyopia | Q48807109 | ||
| The cortical deficit in humans with strabismic amblyopia | Q48882097 | ||
| Abnormal spatial selection and tracking in children with amblyopia | Q48932221 | ||
| Contrast sensitivity in amblyopia: the fellow eye of untreated and successfully treated amblyopes. | Q51341879 | ||
| Inhibition of saccade and vergence eye movements in 3D space. | Q51502302 | ||
| Attention enhances contrast sensitivity at cued and impairs it at uncued locations. | Q51634094 | ||
| Covert attention increases spatial resolution with or without masks: support for signal enhancement. | Q52107085 | ||
| Vertical meridian asymmetry in spatial resolution: visual and attentional factors. | Q52108496 | ||
| Spatial attention: different mechanisms for central and peripheral temporal precues? | Q52164077 | ||
| Undercounting features and missing features: evidence for a high-level deficit in strabismic amblyopia. | Q52169122 | ||
| Amblyopia: a developmental disorder of the central visual pathways. | Q52203234 | ||
| Reflexive and voluntary orienting of visual attention: time course of activation and resistance to interruption. | Q52246630 | ||
| Sustained and transient components of focal visual attention. | Q52248452 | ||
| The psychophysics of visual search. | Q52921506 | ||
| Cerebral correlates of impaired grating perception in individual, psychophysically assessed human amblyopes | Q57605238 | ||
| Contrast masking in strabismic amblyopia: Attenuation, noise, interocular suppression and binocular summation | Q59105209 | ||
| Is the ability to identify deviations in multiple trajectories compromised by amblyopia? | Q59210746 | ||
| Deficient motion perception in the fellow eye of amblyopic children | Q59554986 | ||
| Strabismic amblyopia. Part 1. Psychophysics | Q35020622 | ||
| Characterizing visual performance fields: effects of transient covert attention, spatial frequency, eccentricity, task and set size | Q35095370 | ||
| Steady-state contrast response functions provide a sensitive and objective index of amblyopic deficits. | Q35100376 | ||
| Neuronal responses in visual area V2 (V2) of macaque monkeys with strabismic amblyopia | Q35162859 | ||
| Evaluating comparative and equality judgments in contrast perception: Attention alters appearance | Q35166016 | ||
| Comparison between anisometropic and strabismic amblyopia using functional magnetic resonance imaging | Q35321069 | ||
| Impaired visual decision-making in individuals with amblyopia | Q35647952 | ||
| Neural correlates of the visual vertical meridian asymmetry | Q35781642 | ||
| Covert attention accelerates the rate of visual information processing | Q35875861 | ||
| Neuronal projections from V1 to V2 in amblyopia | Q35887056 | ||
| Population representation of visual information in areas V1 and V2 of amblyopic macaques. | Q35901267 | ||
| Functional evolution of new and expanded attention networks in humans | Q35910258 | ||
| Isoeccentric locations are not equivalent: the extent of the vertical meridian asymmetry | Q35937604 | ||
| When sustained attention impairs perception | Q36002748 | ||
| Visual attention: the past 25 years | Q36077550 | ||
| Monocular activation of V1 and V2 in amblyopic adults measured with functional magnetic resonance imaging | Q36327162 | ||
| Visual processing in amblyopia: animal studies | Q36412146 | ||
| How Attention Affects Spatial Resolution | Q36421688 | ||
| Degraded attentional modulation of cortical neural populations in strabismic amblyopia | Q36590459 | ||
| Independent effects of adaptation and attention on perceived speed | Q36605190 | ||
| Endogenous spatial attention: evidence for intact functioning in adults with autism | Q36867921 | ||
| Perceptual consequences of visual performance fields: the case of the line motion illusion | Q36990744 | ||
| Transient attention enhances perceptual performance and FMRI response in human visual cortex | Q37302131 | ||
| Spatial covert attention increases contrast sensitivity across the CSF: support for signal enhancement | Q37302146 | ||
| Exogenous spatial attention: evidence for intact functioning in adults with autism spectrum disorder | Q37383331 | ||
| Saccadic latency in amblyopia | Q37384547 | ||
| Prolonged perceptual learning of positional acuity in adult amblyopia: perceptual template retuning dynamics | Q37395633 | ||
| Attention alters appearance | Q37438668 | ||
| Covert attention effects on spatial resolution | Q37592714 | ||
| Attentional enhancement of spatial resolution: linking behavioural and neurophysiological evidence | Q37688766 | ||
| The attention system of the human brain: 20 years after | Q38004640 | ||
| New concepts concerning the neural mechanisms of amblyopia and their clinical implications | Q38049417 | ||
| Amblyopia and the binocular approach to its therapy | Q38438755 | ||
| P275 | copyright license | Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International | Q24082749 |
| P6216 | copyright status | copyrighted | Q50423863 |
| P433 | issue | 15 | |
| P304 | page(s) | 30 | |
| P577 | publication date | 2016-12-01 | |
| P1433 | published in | Journal of Vision | Q6296043 |
| P1476 | title | Covert spatial attention is functionally intact in amblyopic human adults | |
| P478 | volume | 16 |
| Q88422551 | Both saccadic and manual responses in the amblyopic eye of strabismics are irreducibly delayed |
| Q89111662 | Cortical correlates of amblyopia |
| Q52574356 | Endogenous attention improves perception in amblyopic macaques. |
| Q50147527 | Feature-based attention potentiates recovery of fine direction discrimination in cortically blind patients |
| Q90656385 | How visual spatial attention alters perception |
| Q60907713 | Temporal attention improves perception similarly at foveal and parafoveal locations |
| Q48225689 | When attention is intact in adults with ADHD. |
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