Antony B. Morland spends much of his time researching Neuroscience, Visual field, Visual cortex, Visual system and Sensory system. He is interested in Photic Stimulation, which is a branch of Neuroscience. Anterior region, Transcranial magnetic stimulation and Psychophysics is closely connected to Functional magnetic resonance imaging in his research, which is encompassed under the umbrella topic of Visual field.
His work is dedicated to discovering how Visual cortex, Receptive field are connected with Human brain and other disciplines. His study looks at the relationship between Visual system and fields such as Occipital lobe, as well as how they intersect with chemical problems. His work in Sensory system addresses issues such as Anatomy, which are connected to fields such as Retina.
His primary areas of investigation include Neuroscience, Visual cortex, Macular degeneration, Visual system and Visual field. Neuroscience is a component of his Transcranial magnetic stimulation, Sensory system, Extrastriate cortex, Lateral geniculate nucleus and Visual perception studies. His Visual cortex study incorporates themes from Occipital lobe, Retina, Functional magnetic resonance imaging and Anatomy.
His work is dedicated to discovering how Macular degeneration, Age related are connected with Juvenile and Randomized controlled trial and other disciplines. His Visual system study combines topics from a wide range of disciplines, such as Form perception, Cortex, Grey matter and Contrast. His study in Visual field is interdisciplinary in nature, drawing from both Lateralization of brain function, Receptive field and Human brain.
His primary areas of study are Visual cortex, Neuroscience, Visual field, Receptive field and Macular degeneration. Antony B. Morland combines subjects such as Occipital lobe, Functional magnetic resonance imaging, Neuroimaging and Audiology with his study of Visual cortex. His biological study spans a wide range of topics, including Retina, Cortex and Atrophy.
His Transcranial magnetic stimulation, Perception and Retinotopy study, which is part of a larger body of work in Neuroscience, is frequently linked to Primary and Angular frequency, bridging the gap between disciplines. As part of the same scientific family, Antony B. Morland usually focuses on Receptive field, concentrating on Stimulus and intersecting with Stereopsis, Visual motion perception and Right hemisphere. He has included themes like Retinal Prosthesis, Retinitis pigmentosa and Age related in his Macular degeneration study.
Neuroscience, Visual cortex, Psychophysics, Transcranial magnetic stimulation and Visual field are his primary areas of study. His Neuroscience study combines topics in areas such as Cued speech and Contrast. The various areas that Antony B. Morland examines in his Visual cortex study include Occipital lobe and Receptive field.
His biological study deals with issues like Color vision, which deal with fields such as Achromatic lens. His Visual field research is multidisciplinary, incorporating elements of Functional magnetic resonance imaging and Anterior region. His studies deal with areas such as Binocular vision, Neuroimaging and Human brain as well as Perception.
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Topographic Organization of Human Visual Areas in the Absence of Input from Primary Cortex
Heidi A. Baseler;Antony B. Morland;Antony B. Morland;Brian A. Wandell.
The Journal of Neuroscience (1999)
Reorganization of human cortical maps caused by inherited photoreceptor abnormalities
Heidi A. Baseler;Alyssa A. Brewer;Lindsay T. Sharpe;Antony B. Morland.
Nature Neuroscience (2002)
Large-scale remapping of visual cortex is absent in adult humans with macular degeneration
Heidi Ann Baseler;Andre Gouws;Koen V Haak;Christopher Racey.
Nature Neuroscience (2011)
Scanning the visual world: a study of patients with homonymous hemianopia
A L M Pambakian;D S Wooding;N Patel;A B Morland.
Journal of Neurology, Neurosurgery, and Psychiatry (2000)
Organization of the visual cortex in human albinism.
Michael B. Hoffmann;David J. Tolhurst;Anthony T. Moore;Antony B. Morland.
The Journal of Neuroscience (2003)
Macular pigments: their characteristics and putative role
Nigel P Davies;Antony B Morland.
Progress in Retinal and Eye Research (2004)
Visual perception of motion, luminance and colour in a human hemianope.
Antony B. Morland;Simon R. Jones;Alison L. Finlay;Emilie Deyzac.
Colour identification and colour constancy are impaired in a patient with incomplete achromatopsia associated with prestriate cortical lesions.
C. Kennard;M. Lawden;A. B. Morland;Keith Harrhy Ruddock.
Proceedings of The Royal Society B: Biological Sciences (1995)
Perceptual distortions of speed at low luminance: evidence inconsistent with a Bayesian account of speed encoding.
Stephen T. Hammett;Rebecca A. Champion;Peter G. Thompson;Antony B. Morland;Antony B. Morland.
Vision Research (2007)
Abnormal retinotopic representations in human visual cortex revealed by fMRI.
Antony B. Morland;Heidi A. Baseler;Michael B. Hoffmann;Lindsay T. Sharpe.
Acta Psychologica (2001)
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