Towards a whole brain model of Perceptual Learning M Maniglia, AR Seitz Current opinion in behavioral sciences 20, 47-55, 2018 | 119 | 2018 |
Reducing crowding by weakening inhibitory lateral interactions in the periphery with perceptual learning M Maniglia, A Pavan, LF Cuturi, G Campana, G Sato, C Casco PloS one 6 (10), e25568, 2011 | 67 | 2011 |
Perceptual learning leads to long lasting visual improvement in patients with central vision loss M Maniglia, A Pavan, G Sato, G Contemori, S Montemurro, L Battaglini, ... Restorative neurology and neuroscience 34 (5), 697-720, 2016 | 58 | 2016 |
tRNS boosts perceptual learning in peripheral vision G Contemori, Y Trotter, BR Cottereau, M Maniglia Neuropsychologia 125, 129-136, 2019 | 56 | 2019 |
Implied motion from static photographs influences the perceived position of stationary objects A Pavan, LF Cuturi, M Maniglia, C Casco, G Campana Vision research 51 (1), 187-194, 2011 | 49 | 2011 |
Rehabilitation approaches in macular degeneration patients M Maniglia, BR Cottereau, V Soler, Y Trotter Frontiers in systems neuroscience 10, 107, 2016 | 34 | 2016 |
Binding mechanisms in visual perception and their link with neural oscillations: a review of evidence from tACS A Ghiani, M Maniglia, L Battaglini, D Melcher, L Ronconi Frontiers in Psychology 12, 643677, 2021 | 32 | 2021 |
The origin of the audiovisual bounce inducing effect: a TMS study M Maniglia, M Grassi, C Casco, G Campana Neuropsychologia 50 (7), 1478-1482, 2012 | 29 | 2012 |
Spontaneous and training-induced cortical plasticity in MD patients: Hints from lateral masking M Maniglia, V Soler, B Cottereau, Y Trotter Scientific Reports 8 (1), 90, 2018 | 28 | 2018 |
Effect of varying levels of glare on contrast sensitivity measurements of young healthy individuals under photopic and mesopic vision M Maniglia, SM Thurman, AR Seitz, PG Davey Frontiers in psychology 9, 899, 2018 | 27 | 2018 |
tRNS effects on visual contrast detection L Battaglini, G Contemori, S Penzo, M Maniglia Neuroscience Letters 717, 134696, 2020 | 26 | 2020 |
Common (and multiple) neural substrates for static and dynamic motion after-effects: A rTMS investigation G Campana, M Maniglia, A Pavan Cortex 49 (9), 2590-2594, 2013 | 26 | 2013 |
The fastest (and simplest), the earliest: The locus of processing of rapid forms of motion aftereffect G Campana, A Pavan, M Maniglia, C Casco Neuropsychologia 49 (10), 2929-2934, 2011 | 25 | 2011 |
Improving visual deficits with perceptual learning G Campana, M Maniglia Frontiers in Psychology 6, 491, 2015 | 21 | 2015 |
The effect of spatial frequency on peripheral collinear facilitation M Maniglia, A Pavan, Y Trotter Vision research 107, 146-154, 2015 | 19 | 2015 |
The role of high-level visual areas in short-and longer-lasting forms of neural plasticity A Pavan, G Campana, M Maniglia, C Casco Neuropsychologia 48 (10), 3069-3079, 2010 | 19 | 2010 |
We don't all look the same; detailed examination of peripheral looking strategies after simulated central vision loss M Maniglia, R Jogin, KM Visscher, AR Seitz Journal of Vision 20 (13), 5-5, 2020 | 18 | 2020 |
Combining fixation and lateral masking training enhances perceptual learning effects in patients with macular degeneration M Maniglia, V Soler, Y Trotter Journal of vision 20 (10), 19-19, 2020 | 18 | 2020 |
TMS reveals inhibitory extrastriate cortico-cortical feedback modulation of V1 activity in humans M Maniglia, Y Trotter, F Aedo-Jury Brain Structure and Function 224 (9), 3399-3408, 2019 | 16 | 2019 |
Sounds are perceived as louder when accompanied by visual movement M Maniglia, M Grassi, J Ward Multisensory Research 30 (2), 159-177, 2017 | 15 | 2017 |