review article | Q7318358 |
scholarly article | Q13442814 |
P2093 | author name string | Gordon E Legge | |
Susana T L Chung | |||
P2860 | cites work | 'Visual' acuity of the congenitally blind using visual-to-auditory sensory substitution | Q21134732 |
Neural correlates of natural human echolocation in early and late blind echolocation experts | Q21135369 | ||
Alterations of the visual pathways in congenital blindness | Q23991067 | ||
The sensations produced by electrical stimulation of the visual cortex | Q24539192 | ||
Safety and efficacy of gene transfer for Leber's congenital amaurosis | Q24634724 | ||
Perceptual learning as a potential treatment for amblyopia: a mini-review | Q24651081 | ||
Disappointing results from Nova Vision's visual restoration therapy | Q24670565 | ||
A Survey of Retinal Remodeling | Q26771531 | ||
Long-Term Results from an Epiretinal Prosthesis to Restore Sight to the Blind | Q27304688 | ||
A lack of experience-dependent plasticity after more than a decade of recovered sight | Q27324604 | ||
The newly sighted fail to match seen with felt | Q28235150 | ||
Activation of the primary visual cortex by Braille reading in blind subjects | Q28276450 | ||
Effect of gene therapy on visual function in Leber's congenital amaurosis | Q28277981 | ||
Cone Structure in Retinal Degeneration Associated with Mutations in theperipherin/RDSGene | Q30396169 | ||
Ultrafine spatial acuity of blind expert human echolocators | Q30446295 | ||
Crossmodal recruitment of the ventral visual stream in congenital blindness | Q30465863 | ||
Face recognition in age-related maculopathy | Q43533641 | ||
Visual cortex extrastriate body-selective area activation in congenitally blind people "seeing" by using sounds | Q43696900 | ||
Shape-specific activation of occipital cortex in an early blind echolocation expert | Q44393879 | ||
Visual acuity in newborn and preterm infants measured with grating acuity cards | Q45034067 | ||
Reorganization of visual processing in macular degeneration. | Q45230629 | ||
Psychometric properties of the Veterans Affairs Low-Vision Visual Functioning Questionnaire | Q45333350 | ||
Vision research special issue: Sight restoration: Prosthetics, optogenetics and gene therapy | Q45875548 | ||
Long-term deprivation affects visual perception and cortex | Q46100354 | ||
Reorganization of visual processing is related to eccentric viewing in patients with macular degeneration. | Q46255794 | ||
Fixation characteristics of patients with macular degeneration recorded with the mp-1 microperimeter | Q46815417 | ||
Causes and prevalence of visual impairment among adults in the United States | Q46890945 | ||
Small effect of interline spacing on maximal reading speed in low-vision patients with central field loss irrespective of scotoma size | Q47172190 | ||
Current methods of visual rehabilitation | Q30471387 | ||
V1 projection zone signals in human macular degeneration depend on task, not stimulus | Q30489830 | ||
The Glenn A. Fry Award Lecture 2012: Plasticity of the visual system following central vision loss | Q30540326 | ||
Rapid and persistent adaptability of human oculomotor control in response to simulated central vision loss | Q30544797 | ||
Development of pattern vision following early and extended blindness | Q30571301 | ||
Functional recruitment of visual cortex for sound encoded object identification in the blind | Q30573977 | ||
A summary of research investigating echolocation abilities of blind and sighted humans | Q30756733 | ||
Retinotopic mapping of the visual cortex using functional magnetic resonance imaging in a patient with central scotomas from atrophic macular degeneration | Q30765515 | ||
Computational neuroimaging and population receptive fields | Q30926018 | ||
Does visual restitution training change absolute homonymous visual field defects? A fundus controlled study. | Q31136753 | ||
Can fixation instability improve text perception during eccentric fixation in patients with central scotomas? | Q33199825 | ||
Functional and cortical adaptations to central vision loss | Q33216427 | ||
Preferred retinal locus development in patients with macular disease | Q33221312 | ||
Retinotopic organization of primary visual cortex in glaucoma: a method for comparing cortical function with damage to the optic disk | Q33270260 | ||
Quantifying fixation in patients with Stargardt disease | Q33287366 | ||
Rapid and reversible recruitment of early visual cortex for touch | Q33363546 | ||
Reading speed in the peripheral visual field of older adults: Does it benefit from perceptual learning? | Q33806333 | ||
Psychophysics of reading. XX. Linking letter recognition to reading speed in central and peripheral vision | Q33937945 | ||
Comparison of scoring approaches for the NEI VFQ-25 in low vision | Q34076157 | ||
Learning to read vertical text in peripheral vision | Q34079687 | ||
Development of the 25-item National Eye Institute Visual Function Questionnaire | Q34083677 | ||
Cortical maps and white matter tracts following long period of visual deprivation and retinal image restoration | Q34168786 | ||
Restoration of binocular vision in amblyopia. | Q34211092 | ||
Improvement and decline in vision with gene therapy in childhood blindness. | Q34474831 | ||
Morphometric analyses of the visual pathways in macular degeneration | Q34604914 | ||
Improving Reading Speed for People with Central Vision Loss through Perceptual Learning | Q34645627 | ||
Incomplete cortical reorganization in macular degeneration. | Q34662359 | ||
Crowding--an essential bottleneck for object recognition: a mini-review | Q34742781 | ||
The contrast sensitivity of the newborn human infant | Q35022661 | ||
Restoring Vision to the Blind: The Lasker/IRRF Initiative for Innovation in Vision Science | Q35037157 | ||
Restoring vision through "Project Prakash": the opportunities for merging science and service | Q35072447 | ||
Perceptual learning, aging, and improved visual performance in early stages of visual processing | Q35104554 | ||
Tracking the evolution of crossmodal plasticity and visual functions before and after sight restoration | Q35178487 | ||
Experience-related structural changes of degenerated occipital white matter in late-blind humans - a diffusion tensor imaging study | Q35242121 | ||
Organization of the visual cortex in human albinism. | Q48182020 | ||
Computer-based training for the treatment of partial blindness | Q48396742 | ||
Effects of orientation-specific visual deprivation induced with altered reality | Q48414483 | ||
Abnormal visual pathways in the brain of a human albino | Q48434665 | ||
Cortical plasticity in the face of congenitally altered input into V1. | Q48550212 | ||
Comparison of acuity, contrast sensitivity, and disability glare before and after cataract surgery | Q48677382 | ||
The psychometric validity of the NEI VFQ-25 for use in a low-vision population | Q48905861 | ||
Subretinal Visual Implant Alpha IMS--Clinical trial interim report | Q49129213 | ||
Abnormal fixation in individuals with age-related macular degeneration when viewing an image of a face | Q50303402 | ||
The validity and reliability of short German sentences for measuring reading speed. | Q50499448 | ||
Demographic characteristics of the vision-disabled elderly. | Q50507251 | ||
Visual acuity and fixation characteristics in age-related macular degeneration. | Q50691657 | ||
Reading training with threshold stimuli in people with central vision loss: a feasibility study. | Q50710508 | ||
Extent of recovery from the effects of visual deprivation in kittens | Q51245926 | ||
Binocular interaction in striate cortex of kittens reared with artificial squint | Q51245930 | ||
Perceptual learning retunes the perceptual template in foveal orientation identification. | Q52092761 | ||
Perceptual learning improves efficiency by re-tuning the decision 'template' for position discrimination. | Q52094853 | ||
Signal but not noise changes with perceptual learning. | Q52171462 | ||
Visual factors and orientation-mobility performance. | Q52721134 | ||
Standardized assessment of reading performance: the New International Reading Speed Texts IReST. | Q53129205 | ||
Evaluation of the NEI visual functioning questionnaire as an interval measure of visual ability in low vision. | Q53500230 | ||
The two-dimensional shape of spatial interaction zones in the parafovea | Q58039811 | ||
Vision Multiplexing: an Engineering Approach to Vision Rehabilitation Device Development | Q60342055 | ||
Adaptation to a simulated central scotoma during visual search training | Q63300157 | ||
The oculomotor reference in humans with bilateral macular disease | Q68818877 | ||
New visual acuity charts for clinical research | Q70389078 | ||
Visual attention problems as a predictor of vehicle crashes in older drivers | Q70498980 | ||
Outcomes of cataract surgery. Improvement in visual acuity and subjective visual function after surgery in the first, second, and both eyes | Q70706994 | ||
The design and use of a new near-vision chart | Q71287124 | ||
Environmental variables and mobility performance in adults with low vision | Q71720838 | ||
Reading rates with artificial central scotomata with and without spatial remapping of print | Q72245073 | ||
Enhanced excitability of the human visual cortex induced by short-term light deprivation | Q73881090 | ||
Development of spatial and temporal vision during childhood | Q77875726 | ||
Association of visual field loss and mobility performance in older adults: Salisbury Eye Evaluation Study | Q80167743 | ||
Improving the design of the letter contrast sensitivity test | Q81782026 | ||
Training to improve reading speed in patients with juvenile macular dystrophy: a randomized study comparing two training methods | Q83310985 | ||
Comparison of visual field training for hemianopia with active versus sham transcranial direct cortical stimulation | Q83365266 | ||
Reading rehabilitation of individuals with AMD: relative effectiveness of training approaches | Q83377598 | ||
Large-scale remapping of visual cortex is absent in adult humans with macular degeneration | Q83729228 | ||
Task-specific fixation behavior in macular disease | Q84973877 | ||
Using structural and functional brain imaging to uncover how the brain adapts to blindness | Q92052889 | ||
Improvements in clinical and functional vision and perceived visual disability after first and second eye cataract surgery. | Q35298293 | ||
Correlation of vision loss with tactile-evoked V1 responses in retinitis pigmentosa | Q35563642 | ||
Bayesian adaptive estimation of the contrast sensitivity function: the quick CSF method | Q35628749 | ||
The critical period for surgical treatment of dense congenital bilateral cataracts | Q35846932 | ||
Developmental changes in the visual span for reading | Q36106302 | ||
Visual cortex activation induced by tactile stimulation in late-blind individuals with retinitis pigmentosa | Q36138303 | ||
Visual search with image modification in age-related macular degeneration | Q36285999 | ||
Comparing the Shape of Contrast Sensitivity Functions for Normal and Low Vision | Q36504174 | ||
Capturing the benefit of vision restoration therapy | Q36634961 | ||
Retinal localization of scotomata by scanning laser ophthalmoscopy | Q36644780 | ||
Is there a systematic location for the pseudo-fovea in patients with central scotoma? | Q36765150 | ||
Altered white matter integrity in the congenital and late blind people | Q36845064 | ||
Preferred retinal loci relationship to macular scotomas in a low-vision population | Q36855110 | ||
Using two preferred retinal loci for different lighting conditions in patients with central scotomas | Q36881030 | ||
Reorganization of visual processing in macular degeneration: replication and clues about the role of foveal loss | Q36947264 | ||
Functional and structural brain modifications induced by oculomotor training in patients with age-related macular degeneration | Q37018653 | ||
Long-term renormalization of chromatic mechanisms following cataract surgery | Q37078830 | ||
Retinotopically specific reorganization of visual cortex for tactile pattern recognition | Q37259425 | ||
Cortical reorganization after long-term adaptation to retinal lesions in humans | Q37309519 | ||
Reading speed does not benefit from increased line spacing in AMD patients | Q37310872 | ||
Letter-recognition and reading speed in peripheral vision benefit from perceptual learning | Q37310892 | ||
Characteristics of low-vision rehabilitation services in the United States | Q37331584 | ||
Learning letter identification in peripheral vision | Q37340970 | ||
Preferred retinal locus in macular disease: characteristics and clinical implications | Q37359001 | ||
Albinism: classification, clinical characteristics, and recent findings | Q37458129 | ||
Effects of early pattern deprivation on visual development | Q37471428 | ||
Persistent biases in subjective image focus following cataract surgery | Q37540785 | ||
Plasticity and stability of visual field maps in adult primary visual cortex | Q37630921 | ||
Neural reorganization following sensory loss: the opportunity of change | Q37638213 | ||
A critical review of the development of face recognition: experience is less important than previously believed. | Q37987612 | ||
Clinical Tests of Ultra-Low Vision Used to Evaluate Rudimentary Visual Perceptions Enabled by the BrainPort Vision Device. | Q38404806 | ||
Clinically Meaningful Rehabilitation Outcomes of Low Vision Patients Served by Outpatient Clinical Centers. | Q41097929 | ||
New design principles for visual acuity letter charts | Q41982896 | ||
Adaptive changes in visual cortex following prolonged contrast reduction | Q42073272 | ||
Vision restoration therapy: confounded by eye movements | Q43007069 | ||
P304 | page(s) | 321-343 | |
P577 | publication date | 2016-07-25 | |
P1433 | published in | Annual Review of Vision Science | Q27726601 |
P1476 | title | Low Vision and Plasticity: Implications for Rehabilitation | |
P478 | volume | 2 |
Q64883610 | Introduction to Special Issue on Perceptual Learning. |
Q64079156 | Orientation Information in Encoding Facial Expressions for People With Central Vision Loss |
Q60050104 | Response to short-term deprivation of the human adult visual cortex measured with 7T BOLD |
Q30833786 | Training eye movements for visual search in individuals with macular degeneration. |
Search more.