| scholarly article | Q13442814 |
| P50 | author | Ben S. Webb | Q43139371 |
| Paul V. McGraw | Q43139382 | ||
| Andrew T. Astle | Q50235281 | ||
| Alan J Blighe | Q114440986 | ||
| P2860 | cites work | Perceptual learning as a potential treatment for amblyopia: a mini-review | Q24651081 |
| PsychoPy--Psychophysics software in Python | Q24684122 | ||
| “Mini-mental state” | Q25938989 | ||
| Reduction in the retinotopic early visual cortex with normal aging and magnitude of perceptual learning | Q27307810 | ||
| Dissociable circuits for visual shape learning in the young and aging human brain | Q30538080 | ||
| Patients with AMD and a large absolute central scotoma can be trained successfully to use eccentric viewing, as demonstrated in a scanning laser ophthalmoscope | Q30950903 | ||
| Functional and cortical adaptations to central vision loss | Q33216427 | ||
| Optimization of perceptual learning: effects of task difficulty and external noise in older adults | Q33645955 | ||
| Reading speed in the peripheral visual field of older adults: Does it benefit from perceptual learning? | Q33806333 | ||
| The effect of aging on crowded letter recognition in the peripheral visual field. | Q34043714 | ||
| Can perceptual learning be used to treat amblyopia beyond the critical period of visual development? | Q34222248 | ||
| Perceptual learning in patients with macular degeneration | Q34359807 | ||
| Current knowledge and trends in age-related macular degeneration: genetics, epidemiology, and prevention | Q34388482 | ||
| The processing-speed theory of adult age differences in cognition | Q34392655 | ||
| Perceptual learning of spatial localization: specificity for orientation, position, and context | Q34450078 | ||
| White matter in the older brain is more plastic than in the younger brain | Q34545775 | ||
| Aging and vision | Q34626440 | ||
| Improving Reading Speed for People with Central Vision Loss through Perceptual Learning | Q34645627 | ||
| Changes across the psychometric function following perceptual learning of an RSVP reading task. | Q34762792 | ||
| Comparing perceptual learning tasks: a review. | Q35100301 | ||
| Perceptual learning, aging, and improved visual performance in early stages of visual processing | Q35104554 | ||
| Aging, perceptual learning, and changes in efficiency of motion processing | Q35581106 | ||
| Improving vision among older adults: behavioral training to improve sight | Q35637970 | ||
| Training the brain to overcome the effect of aging on the human eye | Q35772836 | ||
| The estimated prevalence and incidence of late stage age related macular degeneration in the UK | Q35897705 | ||
| Perceptual learning in adults with amblyopia: a reevaluation of critical periods in human vision | Q36072905 | ||
| Can reading-specific training stimuli improve the effect of perceptual learning on peripheral reading speed? | Q36143800 | ||
| Age-related macular degeneration: economic burden and value-based medicine analysis. | Q36157996 | ||
| Relationship between slow visual processing and reading speed in people with macular degeneration | Q36169954 | ||
| Aging and Vision: Changes in Function and Performance from Optics to Perception | Q36178580 | ||
| Perceptual learning reduces crowding in amblyopia and in the normal periphery. | Q36193141 | ||
| Learning to identify crowded letters: does the learning depend on the frequency of training? | Q36514078 | ||
| A Weber-like law for perceptual learning | Q36568943 | ||
| The impact of speed of processing training on cognitive and everyday functions | Q36848079 | ||
| Preferred retinal loci relationship to macular scotomas in a low-vision population | Q36855110 | ||
| Reorganization of visual processing in macular degeneration is not specific to the "preferred retinal locus". | Q37167434 | ||
| Letter-recognition and reading speed in peripheral vision benefit from perceptual learning | Q37310892 | ||
| Learning letter identification in peripheral vision | Q37340970 | ||
| Development of a training protocol to improve reading performance in peripheral vision | Q37480107 | ||
| Where practice makes perfect in texture discrimination: evidence for primary visual cortex plasticity | Q37527112 | ||
| Enhancing visual performance for people with central vision loss | Q37654354 | ||
| Rehabilitation of reading in older individuals with macular degeneration: a review of effective training programs | Q37944883 | ||
| Global estimates of visual impairment: 2010. | Q37963651 | ||
| Adverse events and complications associated with intravitreal injection of anti-VEGF agents: a review of literature | Q38110731 | ||
| Positional uncertainty in peripheral and amblyopic vision | Q41463901 | ||
| Healthy older observers show equivalent perceptual-cognitive training benefits to young adults for multiple object tracking. | Q41958874 | ||
| Perceptual learning and aging: improved performance for low-contrast motion discrimination | Q41995173 | ||
| Learning to identify crowded letters: does it improve reading speed? | Q41996246 | ||
| Training improves reading speed in peripheral vision: Is it due to attention? | Q42111019 | ||
| Simulation of artificial vision: II. Eccentric reading of full-page text and the learning of this task | Q44890762 | ||
| The functional form of performance improvements in perceptual learning: learning rates and transfer | Q46189649 | ||
| Psychophysics of reading. XVIII. The effect of print size on reading speed in normal peripheral vision | Q47278641 | ||
| Effects of target size and eccentricity on visual detection and resolution | Q47322895 | ||
| Perceptual learning of contour integration is not compromised in the elderly | Q48224266 | ||
| Reading training with threshold stimuli in people with central vision loss: a feasibility study. | Q50710508 | ||
| Visual learning and memory as functions of age. | Q51996652 | ||
| Age related differences in learning with the useful field of view. | Q52005150 | ||
| Visual perception and aging. | Q52010355 | ||
| Interobserver variance in perceptual performance and learning. | Q52202294 | ||
| Perceptual learning in parafoveal vision | Q52208001 | ||
| Human perceptual learning in identifying the oblique orientation: retinotopy, orientation specificity and monocularity. | Q52209478 | ||
| Long-term learning in vernier acuity: effects of stimulus orientation, range and of feedback. | Q52227327 | ||
| Improving visual perception in older observers. | Q52262179 | ||
| Interaction Effects in Parafoveal Letter Recognition | Q59090971 | ||
| Second eye involvement in age-related macular degeneration: a four-year prospective study | Q67250456 | ||
| Reading without saccadic eye movements | Q68155141 | ||
| A comparison of word recognition and reading performance in foveal and peripheral vision | Q71777193 | ||
| The effect of experience on the detection of small eye movements | Q73370395 | ||
| Reading with eccentric fixation is faster in inferior visual field than in left visual field | Q73401154 | ||
| Psychophysics of reading--XVI. The visual span in normal and low vision | Q73634818 | ||
| Modeling logMAR visual acuity scores: effects of termination rules and alternative forced-choice options | Q74369392 | ||
| Reading with simulated scotomas: attending to the right is better than attending to the left | Q77793028 | ||
| Perceptual learning | Q79487867 | ||
| Training to improve reading speed in patients with juvenile macular dystrophy: a randomized study comparing two training methods | Q83310985 | ||
| 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 | ||
| P433 | issue | 10 | |
| P921 | main subject | macular degeneration | Q27429789 |
| P304 | page(s) | 16 | |
| P577 | publication date | 2015-01-01 | |
| P1433 | published in | Journal of Vision | Q6296043 |
| P1476 | title | The effect of normal aging and age-related macular degeneration on perceptual learning | |
| P478 | volume | 15 |
| Q38671212 | Learning to see again: biological constraints on cortical plasticity and the implications for sight restoration technologies. |
| Q90176314 | Perceptual Learning at Higher Trained Cutoff Spatial Frequencies Induces Larger Visual Improvements |
| Q46395607 | Perceptual learning leads to long lasting visual improvement in patients with central vision loss |
| Q49979136 | Practice makes the deficiency of global motion detection in people with pattern-related visual stress more apparent. |
| Q37533137 | Rehabilitation Approaches in Macular Degeneration Patients |
| Q49894950 | Spontaneous and training-induced cortical plasticity in MD patients: Hints from lateral masking |
| Q49865267 | Towards a whole brain model of Perceptual Learning. |
| Q46607389 | Training peripheral vision to read: Boosting the speed of letter processing |
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