| scholarly article | Q13442814 |
| P6179 | Dimensions Publication ID | 1025305148 |
| P356 | DOI | 10.1038/NATURE03495 |
| P698 | PubMed publication ID | 15902248 |
| P5875 | ResearchGate publication ID | 7839838 |
| P50 | author | Nikos K. Logothetis | Q897072 |
| Brian Wandell | Q4965572 | ||
| Michael C Schmid | Q59835266 | ||
| Mark Augath | Q124164636 | ||
| P2093 | author name string | Alyssa A Brewer | |
| Andreas S Tolias | |||
| Werner Inhoffen | |||
| Stelios M Smirnakis | |||
| Almut Schüz | |||
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| Reduction in number of immunostained GABAergic neurones in deprived-eye dominance columns of monkey area 17. | Q48353707 | ||
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| Visualization and measurement of the cortical surface. | Q52072098 | ||
| Interocular transfer of receptive field expansion in cat visual cortex. | Q52211349 | ||
| Long-range horizontal connections and their role in cortical reorganization revealed by optical recording of cat primary visual cortex | Q59092847 | ||
| Coding of image contrast in central visual pathways of the macaque monkey | Q68744742 | ||
| Retinal detachment induces massive immediate reorganization in visual cortex | Q72047025 | ||
| Topographic reorganization in the striate cortex of the adult cat and monkey is cortically mediated | Q72632522 | ||
| Monocular focal retinal lesions induce short-term topographic plasticity in adult cat visual cortex | Q77217480 | ||
| The spatial extent over which neurons in macaque striate cortex pool visual signals | Q78743727 | ||
| P433 | issue | 7040 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | Macaca | Q177601 |
| P304 | page(s) | 300-307 | |
| P577 | publication date | 2005-05-01 | |
| P1433 | published in | Nature | Q180445 |
| P1476 | title | Lack of long-term cortical reorganization after macaque retinal lesions | |
| P478 | volume | 435 |
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| Q35069764 | Adult cortical plasticity studied with chronically implanted electrode arrays. |
| Q89111668 | Age-related macular degeneration changes the processing of visual scenes in the brain |
| Q37574446 | Artificial vision: needs, functioning, and testing of a retinal electronic prosthesis |
| Q48411538 | Assessment of stimulus-induced changes in human V1 visual field maps |
| Q98463539 | Brain-inspired replay for continual learning with artificial neural networks |
| Q37243422 | Changes in cortical grey matter density associated with long-standing retinal visual field defects |
| Q38125839 | Connectome-scale functional intrinsic connectivity networks in macaques |
| Q37038771 | Cortical Representation of a Myopic Peripapillary Crescent. |
| Q38275527 | Cortical magnification plus cortical plasticity equals vision? |
| Q34168786 | Cortical maps and white matter tracts following long period of visual deprivation and retinal image restoration |
| Q34448459 | Cortical representation of space around the blind spot |
| Q48347314 | DSCAM-mediated control of dendritic and axonal arbor outgrowth enforces tiling and inhibits synaptic plasticity. |
| Q36397871 | Development of white matter and reading skills |
| Q34708967 | Dynamics and specificity of cortical map reorganization after retinal lesions |
| Q36577422 | Effects of healthy aging on human primary visual cortex |
| Q48291101 | Effects of perceptual learning on local stereopsis and neuronal responses of V1 and V2 in prism-reared monkeys |
| Q37654354 | Enhancing visual performance for people with central vision loss |
| Q64099981 | Estimating average single-neuron visual receptive field sizes by fMRI |
| Q90388822 | Fine-Grained Mapping of Cortical Somatotopies in Chronic Complex Regional Pain Syndrome |
| Q35609767 | Functional magnetic resonance imaging of awake monkeys: some approaches for improving imaging quality |
| Q33742670 | Hebbian Reweighting on Stable Representations in Perceptual Learning |
| Q30488191 | Human adult cortical reorganization and consequent visual distortion |
| Q52146528 | Hyper-vision of mirror symmetry in patients with macular degenerationreflects parafoveal cortical reorganization. |
| Q37172587 | Improving the performance of the amblyopic visual system |
| Q37526066 | Large-scale axonal reorganization of inhibitory neurons following retinal lesions. |
| Q83729228 | Large-scale remapping of visual cortex is absent in adult humans with macular degeneration |
| Q36428756 | Layer-specific BOLD activation in awake monkey V1 revealed by ultra-high spatial resolution functional magnetic resonance imaging |
| Q38671212 | Learning to see again: biological constraints on cortical plasticity and the implications for sight restoration technologies. |
| Q33992484 | Leber congenital amaurosis due to RPE65 mutations and its treatment with gene therapy |
| Q90029270 | Long-term histological changes in the macaque primary visual cortex and the lateral geniculate nucleus after monocular deprivation produced by early restricted retinal lesions and diffuser induced form deprivation |
| Q33665750 | Low-level sensory plasticity during task-irrelevant perceptual learning: evidence from conventional and double training procedures |
| Q46402788 | Massive restructuring of neuronal circuits during functional reorganization of adult visual cortex. |
| Q37574452 | Microstimulation of visual cortex to restore vision |
| Q30841226 | Monkey cortex through fMRI glasses |
| Q48718177 | Neural mechanisms of short-term plasticity in the human visual system |
| Q36950735 | Neuroplasticity in the context of motor rehabilitation after stroke. |
| Q46799008 | Neuroscience: rewiring the adult brain |
| Q48616457 | Neuroscience: the maestro of minds |
| Q37667721 | Nonlinear population receptive field changes in human area V5/MT+ of healthy subjects with simulated visual field scotomas |
| Q36611078 | Ocular integration in the human visual cortex |
| Q92040878 | Partial Cone Loss Triggers Synapse-Specific Remodeling and Spatial Receptive Field Rearrangements in a Mature Retinal Circuit |
| Q24651081 | Perceptual learning as a potential treatment for amblyopia: a mini-review |
| Q33882190 | Perceptual learning improves contrast sensitivity of V1 neurons in cats |
| Q37200918 | Perceptual plasticity in damaged adult visual systems |
| Q59096067 | Plasticity and its limits |
| Q37630921 | Plasticity and stability of visual field maps in adult primary visual cortex |
| Q38160865 | Plasticity in the human visual cortex: an ophthalmology-based perspective. |
| Q92002663 | Plasticity versus stability across the human cortical visual connectome |
| Q37725211 | Population receptive field analysis of the primary visual cortex complements perimetry in patients with homonymous visual field defects |
| Q38766595 | Primary visual cortical remapping in patients with inherited peripheral retinal degeneration. |
| Q39322828 | Probing Human Visual Deficits with Functional Magnetic Resonance Imaging |
| Q37395633 | Prolonged perceptual learning of positional acuity in adult amblyopia: perceptual template retuning dynamics |
| Q27324112 | Pulse trains to percepts: the challenge of creating a perceptually intelligible world with sight recovery technologies |
| Q37390210 | Quantification of early stages of cortical reorganization of the topographic map of V1 following retinal lesions in monkeys |
| Q42270704 | Rapid axonal sprouting and pruning accompany functional reorganization in primary visual cortex |
| Q33806333 | Reading speed in the peripheral visual field of older adults: Does it benefit from perceptual learning? |
| Q48458575 | Receptive field plasticity of area 17 visual cortical neurons of adult rats |
| Q37533137 | Rehabilitation Approaches in Macular Degeneration Patients |
| Q40792947 | Reorganization of retinotopic maps after occipital lobe infarction. |
| Q37167434 | Reorganization of visual processing in macular degeneration is not specific to the "preferred retinal locus". |
| Q36947264 | Reorganization of visual processing in macular degeneration: replication and clues about the role of foveal loss |
| Q30416859 | Research and technology in neurocritical care |
| Q50976948 | Residual abilities in age-related macular degeneration to process spatial frequencies during natural scene categorization. |
| Q99634393 | Rethinking amblyopia 2020 |
| Q44930876 | Retinotopic maps and foveal suppression in the visual cortex of amblyopic adults |
| Q46917850 | Retinotopic organization of the human visual cortex: a 3T fMRI study |
| Q37292949 | Revealing the neural fingerprints of a missing hand. |
| Q59096070 | Rewiring the adult brain (Reply) |
| Q48314685 | Spatial specificity of BOLD versus cerebral blood volume fMRI for mapping cortical organization |
| Q49894950 | Spontaneous and training-induced cortical plasticity in MD patients: Hints from lateral masking |
| Q39141846 | Stability of Sensory Topographies in Adult Cortex |
| Q30487898 | Strengthening of lateral activation in adult rat visual cortex after retinal lesions captured with voltage-sensitive dye imaging in vivo. |
| Q48413620 | Surround modulation in cortical orientation map revealed by optical imaging and its dependency on receptive field eccentricity |
| Q28298773 | The neural mechanisms of perceptual filling-in |
| Q43242787 | The twinkle aftereffect is pre-cortical and is independent of filling-in |
| Q30480810 | Training-induced cortical representation of a hemianopic hemifield |
| Q30475053 | Tuning out the noise: limbic-auditory interactions in tinnitus |
| Q26750521 | Using magnetic resonance imaging to assess visual deficits: a review |
| Q30489830 | V1 projection zone signals in human macular degeneration depend on task, not stimulus |
| Q38932300 | Visual Cortex Plasticity Following Peripheral Damage To The Visual System: fMRI Evidence. |
| Q30361140 | Visual Field Map Clusters in High-Order Visual Processing: Organization of V3A/V3B and a New Cloverleaf Cluster in the Posterior Superior Temporal Sulcus. |
| Q37325257 | Visual cortex organisation in a macaque monkey with macular degeneration |
| Q30492643 | Visual prosthesis |
| Q37558416 | Visual space and object space in the cerebral cortex of retinal disease patients |
| Q33444716 | Visually driven activation in macaque areas V2 and V3 without input from the primary visual cortex |
| Q45208097 | Wiring stability of the adult Drosophila olfactory circuit after lesion. |
| Q35549405 | fMRI of the rod scotoma elucidates cortical rod pathways and implications for lesion measurements |
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