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Visual neuroscience

Showing results (291-300 of 2,286) with videos related to

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Visual Neuroscience|April 20, 2004
Visual detection deficits following inactivation of the superior colliculus in the catMarnie C Fitzmaurice, Vivian M Ciaramitaro, Larry A Palmer, et al.
Visual Neuroscience|July 21, 2004
Visual processing of the zebrafish optic tectum before and after optic nerve damageAngela L McDowell, Lee J Dixon, Jennifer D Houchins, et al.
Visual Neuroscience|July 21, 2004
The type 1 polyaxonal amacrine cells of the rabbit retina: a tracer-coupling studyLayne L Wright, David I Vaney
Visual Neuroscience|July 21, 2004
Role of the cervico-ocular reflex in the "flying" pigeon: interactions with the optokinetic reflexM Maurice, H Gioanni
Visual Neuroscience|July 21, 2004
All amacrine cells in the rabbit retina possess AMPA-, NMDA-, GABA-, and glycine-activated currentsChengwen Zhou, Ramon F Dacheux
Visual Neuroscience|February 24, 2004
Hyper-vision in a patient with central and paracentral vision loss reflects cortical reorganizationClara Casco, Gianluca Campana, Alba Grieco, et al.
Visual Neuroscience|February 24, 2004
Contour integration in amblyopic monkeysPetra Kozma, Lynne Kiorpes
Visual Neuroscience|August 1, 1992
Binocular rivalry suppression disrupts recovery from motion adaptationH Wiesenfelder, R Blake
Visual Neuroscience|August 1, 1992
A breakdown of the blood-brain barrier is associated with optic nerve regeneration in the frogM Tennant, L D Beazley
Visual Neuroscience|April 1, 1992
Synaptic contacts of a two-cone flat bipolar cell in a primate retinaJ M Hopkins, B B Boycott
Pageof 229

Showing results (291-300 of 2,286) with videos related to

Sort By:
Pageof 229
Visual Neuroscience|April 20, 2004
Visual detection deficits following inactivation of the superior colliculus in the catMarnie C Fitzmaurice, Vivian M Ciaramitaro, Larry A Palmer, et al.
Visual Neuroscience|July 21, 2004
Visual processing of the zebrafish optic tectum before and after optic nerve damageAngela L McDowell, Lee J Dixon, Jennifer D Houchins, et al.
Visual Neuroscience|July 21, 2004
The type 1 polyaxonal amacrine cells of the rabbit retina: a tracer-coupling studyLayne L Wright, David I Vaney
Visual Neuroscience|July 21, 2004
Role of the cervico-ocular reflex in the "flying" pigeon: interactions with the optokinetic reflexM Maurice, H Gioanni
Visual Neuroscience|July 21, 2004
All amacrine cells in the rabbit retina possess AMPA-, NMDA-, GABA-, and glycine-activated currentsChengwen Zhou, Ramon F Dacheux
Visual Neuroscience|February 24, 2004
Hyper-vision in a patient with central and paracentral vision loss reflects cortical reorganizationClara Casco, Gianluca Campana, Alba Grieco, et al.
Visual Neuroscience|February 24, 2004
Contour integration in amblyopic monkeysPetra Kozma, Lynne Kiorpes
Visual Neuroscience|August 1, 1992
Binocular rivalry suppression disrupts recovery from motion adaptationH Wiesenfelder, R Blake
Visual Neuroscience|August 1, 1992
A breakdown of the blood-brain barrier is associated with optic nerve regeneration in the frogM Tennant, L D Beazley
Visual Neuroscience|April 1, 1992
Synaptic contacts of a two-cone flat bipolar cell in a primate retinaJ M Hopkins, B B Boycott
Pageof 229