Visual field map clusters in human cortex
- 29 April 2005
- journal article
- review article
- Published by The Royal Society in Philosophical Transactions Of The Royal Society B-Biological Sciences
- Vol. 360 (1456) , 693-707
- https://doi.org/10.1098/rstb.2005.1628
Abstract
We describe the location and general properties of nine human visual field maps. The cortical location of each map, as well as many examples of the eccentricity and angular representations within these maps, are shown in a series of images that summarize a large set of functional MRI data. The organization and properties of these maps are compared and contrasted with descriptions by other investigators. We hypothesize that the human visual field maps are arranged in several clusters, each comprising a group of maps that share a common foveal representation and semicircular eccentricity map. The spatial organization of these clusters suggests that the perceptual processing within each cluster serves related functions.Keywords
This publication has 110 references indexed in Scilit:
- Visual field representations and locations of visual areas V1/2/3 in human visual cortexJournal of Vision, 2003
- Functional measurements of human ventral occipital cortex: retinotopy and colourPhilosophical Transactions Of The Royal Society B-Biological Sciences, 2002
- Common principles of image acquisition systems and biological visionProceedings of the IEEE, 2002
- Where is 'Dorsal V4' in Human Visual Cortex? Retinotopic, Topographic and Functional EvidenceCerebral Cortex, 2001
- Understanding Barriers to the Early Detection of Prostate Cancer Among Men of Lower Socioeconomic StatusThe Prostate Journal, 1999
- COMPUTATIONAL NEUROIMAGING OF HUMAN VISUAL CORTEXAnnual Review of Neuroscience, 1999
- Cortical Surface-Based AnalysisNeuroImage, 1999
- Cortical Surface-Based AnalysisNeuroImage, 1999
- Retinotopic organization in human visual cortex and the spatial precision of functional MRICerebral Cortex, 1997
- Borders of Multiple Visual Areas in Humans Revealed by Functional Magnetic Resonance ImagingScience, 1995