02543nam 2200445 450 991013709530332120190910160528.0(CKB)3710000000824714(EXLCZ)99371000000082471420160822h20152015 fy| 0engur||#---|||||txtrdacontentcrdamediacrrdacarrierNeurovisionneural bases of binocular vision and coordination and their implications in visual training programs /edited by: Olivier A. Coubard[Lausanne, Switzerland] :Frontiers Media SA,2015.©20151 online resource (264 pages) illustrations; digital, PDF file(s)Frontiers Research TopicsFrontiers in Integrative Neuroscience2-88919-655-0 Includes bibliographical references.Binocular vision is achieved by five neurovisual systems originating in the retina but varying in their destination within the brain. Two systems have been widely studied: the retino-tectal or retino-collicular route, which subserves an expedient and raw estimate of the visual scene through the magnocellular pathway (Isa, 2002), and the retino-occipital or retino-cortical route, which allows slower but refined analysis of the visual scene through the parvocellular pathway (Espinosa & Stryker, 2012). But there also exist further neurovisual systems: the retino-hypothalamic, retino-pretectal, and accessory optic systems, which play a crucial role in vision though they are less understood ...The focus of this issue is to review the most recent findings in brain imaging and neurophysiology of binocular vision and coordination in humans and animals with frontally-placed eyes. The emphasis will be put on studies that enable transfer of knowledge toward visual training programs targeting binocular functional disorders (e.g., amblyopia) and visual field defects (e.g., hemianopia).Frontiers in integrative neuroscience.Binocular visionBinocular vision disordersVisual trainingNeurophysiologyBinocular vision.Binocular vision disorders.Visual training.Neurophysiology.Coubard Olivier A.Frontiers Research Foundation,UkMaJRUBOOK9910137095303321Neurovision2039268UNINA