| scholarly article | Q13442814 |
| P50 | author | Dennis M. Levi | Q56223867 |
| P2093 | author name string | Stanley A Klein | |
| Srividhya Hariharan | |||
| P2860 | cites work | Seeing beyond the receptive field in primary visual cortex | Q34029080 |
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| Abnormal long-range spatial interactions in amblyopia | Q73348735 | ||
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| Center-surround interactions in foveal and peripheral vision | Q74341930 | ||
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| Relationship between facilitation at threshold and suprathreshold contour integration | Q74838661 | ||
| VISUAL RESOLUTION AND CONTOUR INTERACTION | Q76568916 | ||
| Transducer model produces facilitation from opposite-sign flanks | Q77793008 | ||
| Vernier acuity, crowding and amblyopia | Q93625715 | ||
| P433 | issue | 11 | |
| P304 | page(s) | 1379-1394 | |
| P577 | publication date | 2002-05-01 | |
| P1433 | published in | Vision Research | Q1307852 |
| P1476 | title | Suppressive and facilitatory spatial interactions in amblyopic vision | |
| P478 | volume | 42 |
| Q81202947 | "Crowding" in normal and amblyopic vision assessed with Gaussian and Gabor C's |
| Q46046989 | "Phase capture" in amblyopia: the influence function for sampled shape |
| Q33615096 | A double dissociation of the acuity and crowding limits to letter identification, and the promise of improved visual screening |
| Q48932221 | Abnormal spatial selection and tracking in children with amblyopia |
| Q33960802 | Action-video-game experience alters the spatial resolution of vision |
| Q48651000 | Backward masking suppresses collinear facilitation in the visual cortex |
| Q33817917 | Binocular combination in anisometropic amblyopia |
| Q30474810 | Brain plasticity and disease: a matter of inhibition |
| Q42375783 | Cognitive processing of orientation discrimination in anisometropic amblyopia |
| Q36091870 | Collinearity improves alignment in amblyopia as well as in normal vision |
| Q55360972 | Contour interaction under photopic and scotopic conditions. |
| Q50317048 | Crowding and visual acuity measured in adults using paediatric test letters, pictures and symbols |
| Q37335655 | Crowding between first- and second-order letters in amblyopia |
| Q34742781 | Crowding--an essential bottleneck for object recognition: a mini-review |
| Q51944350 | Does context or color improve object recognition in patients with low vision? |
| Q43428769 | Foveal visual acuity is worse and shows stronger contour interaction effects for contrast-modulated than luminance-modulated Cs. |
| Q35750320 | Global contour processing in amblyopia |
| Q36170716 | How do flanking objects affect reaching and grasping behavior in participants with macular disorders? |
| Q35944521 | Image segregation in strabismic amblyopia |
| Q35647952 | Impaired visual decision-making in individuals with amblyopia |
| Q24564724 | Improving vision in adult amblyopia by perceptual learning |
| Q42175463 | Improving visual functions in adult amblyopia with combined perceptual training and transcranial random noise stimulation (tRNS): a pilot study |
| Q50436807 | Lateral facilitation revealed dichoptically for luminance-modulated and contrast-modulated stimuli |
| Q50790623 | Learning to be fast: gain accuracy with speed. |
| Q34256778 | Learning to identify near-acuity letters, either with or without flankers, results in improved letter size and spacing limits in adults with amblyopia |
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| Q51932792 | Making perceptual learning practical to improve visual functions. |
| Q36327162 | Monocular activation of V1 and V2 in amblyopic adults measured with functional magnetic resonance imaging |
| Q81420102 | Multi-component correlate for lateral collinear interactions in the human visual cortex |
| Q21129490 | New perspectives in amblyopia therapy on adults: a critical role for the excitatory/inhibitory balance |
| Q36824004 | Noise and the Perceptual Filling-in effect |
| Q37658290 | Nurturing brain plasticity: impact of environmental enrichment. |
| Q55231879 | Partial correlation analysis reveals abnormal retinotopically organized functional connectivity of visual areas in amblyopia. |
| Q45982499 | Perception of mirror symmetry in amblyopic vision. |
| Q50430548 | Perceptual learning improves contrast sensitivity, visual acuity, and foveal crowding in amblyopia. |
| Q37706628 | Perceptual learning improves stereoacuity in amblyopia |
| Q34556024 | Prominent effects and neural correlates of visual crowding in a neurodegenerative disease population |
| Q31040387 | Reducing crowding by weakening inhibitory lateral interactions in the periphery with perceptual learning |
| Q44930876 | Retinotopic maps and foveal suppression in the visual cortex of amblyopic adults |
| Q51700796 | Selective Bayes: attentional load and crowding. |
| Q48168465 | Spatial and temporal crowding in amblyopia |
| Q81469795 | Spatial interactions in amblyopia: effects of stimulus parameters and amblyopia type |
| Q46356746 | Spatial interactions reveal inhibitory cortical networks in human amblyopia |
| Q48704477 | Temporal asymmetry of collinear lateral interactions |
| Q39557829 | Temporal asynchrony and spatial perception |
| Q48666508 | The effect of occlusion therapy on motion perception deficits in amblyopia. |
| Q36499462 | The effect of transcranial direct current stimulation on contrast sensitivity and visual evoked potential amplitude in adults with amblyopia |
| Q41199828 | The neural basis of spatial vision losses in the dysfunctional visual system. |
| Q53025305 | The relationship between the subjective and objective aspects of visual filling-in. |
| Q35023122 | Training-induced recovery of low-level vision followed by mid-level perceptual improvements in developmental object and face agnosia |
| Q33909561 | Treatment of amblyopia in the adult: insights from a new rodent model of visual perceptual learning |
| Q51929942 | Treatment of children with amblyopia by perceptual learning. |
| Q46211577 | Visual acuity testing. From the laboratory to the clinic |
| Q34762238 | Visual crowding: a fundamental limit on conscious perception and object recognition |
| Q36412146 | Visual processing in amblyopia: animal studies |
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