Occipital regions {V1 brain area} {area V1} {primary visual cortex} {Brodmann area 17} {striate cortex} {striate occipital cortex} {area OC} can be for primary vision perception [Brewer et al., 2002] [Dantzker and Callaway, 2000] [Preuss, 2000] [Preuss et al., 1999] [Sawatari and Callaway, 2000] [Vanduffel et al., 2002].
input
Area V1 receives from lateral geniculate nucleus.
output
Area V1 sends feedback {shifter circuit, vision} to lateral-geniculate-nucleus left-and-right-eye layers, which excite or inhibit cortical-area activity [Ahmed et al., 1994] [Budd, 1998] [Douglas et al., 1995] [Felleman and Van Essen, 1991] [Fries, 1990] [LeVay and Gilbert, 1976] [Saint-Cyr et al., 1990] [Sherk, 1986] [White, 1989].
Area V1 sends orientation information to area V2 and then to area V5.
Area V1 sends object recognition and color information to area V2, then to area V4, and then to inferotemporal cortex.
Area V1 sends object location and movement information to area V2, then to area V5, and then to inferior parietal cortex.
Area V1, area V2, area V3, and mediotemporal cortex layer-5 pyramidal cells send to superior colliculus superficial layers and to pons nuclei.
Layer-6 pyramidal-cell axon collaterals synapse on aspinous inhibitory interneurons [Callaway and Wiser, 1996].
anatomy
Striate occipital cortex has visual-field map accurate to one millimeter. Map has ocular dominance columns for both eyes. Map has orientation columns, in which preferred orientation shifts through complete cycle in 0.5 to 1 millimeter. Thousands of orientation and ocular dominance columns cross each other at right angles. Neurons that prefer particular spatial frequency, color, or size also cluster [Engel et al., 1997] [Gur and Snodderly, 1997].
Around striate cortex are areas V2, V3, and V4 {extrastriate cortex, vision} [Bullier et al., 1994] [Hadjikhani et al., 1998].
processing: edge
Most area-V1 neurons respond best to one light or dark edge-or-thin-bar orientation. Edge or bar can be stationary, moving, or flashing.
processing: line
Concentric circles on retina are parallel lines in V1.
processing: letters
Area V1 is active while visualizing letters, even with eyes closed. V1 anterior part, for parafoveal input, is more active for large size letters. V1 posterior part, for foveal input, is more active for small size letters.
processing: binocular
Striate cortex combines signals from both eyes, as do most cells in visual cortex.
processing: attention
Attention affects area V1 [Brefczynski and DeYoe, 1999] [Fries et al., 2001] [Gandhi et al., 1999] [Ito and Gilbert, 1999] [Ito et al., 1995] [Kastner and Ungerleider, 2000] [Motter, 1993] [Niebur and Koch, 1994] [Niebur et al., 1993] [Niebur et al., 2002] [O'Connor et al., 2002] [Roelfsema et al., 1998] [Somers et al., 1999] [Watanabe et al., 1998].
factors: saccade
Spontaneous area-V1-neuron activity decreases when eye moves {saccadic suppression, V1} [Bridgeman et al., 1975] [Burr et al., 1994] [Castet and Masson, 2000] [Haarmeier et al., 1997] [Ilg and Thier, 1996] [McConkie and Currie, 1996].
Saccade target object excites some V1 cells and more V2 cells.
evolution
All mammals have areas V1 and V2, which combine visual, auditory, and tactile sense data. Perhaps, more trunk-and-neck flexibility and limb development allowed those areas.
Biological Sciences>Zoology>Organ>Nerve>Brain>Cerebrum>Occipital Lobe
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Date Modified: 2022.0224