Results 301 to 310 of about 770,719 (342)
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Computational Maps in the Brain
Annual Review of Neuroscience, 1987The nervous system performs computations to process information that is biologically important. Some of these computations occur in maps--arrays of neurons in which the tuning of neighboring neurons for a particular parameter value varies systematically.
SD Esterly, S du Lac, Eric I. Knudsen
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Neuropathological Brain Mapping
Dementia and Geriatric Cognitive Disorders, 1997Neuropathological brain mapping is enabled by extensive semiserial sectioning with whole brain coronal microscopical sections prepared from every 5 to 15 mm. By this method not only type of change but also distribution and regional severity can be assessed, which is fundamental for a correct neuropathological diagnosis.
Elisabet Englund, Arne Brun
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Clinical Electroencephalography, 1990
The topographic maps of 100 patients with various types of headache (classic migraine, non-classic migraine, muscle contraction, mixed and post-traumatic) were compared to the brain maps of 38 normal controls. Patients with classic migraine showed 11 markers, but especially three of high amplitude theta on 0(1) and alpha on 0(1) and T6, thereby ...
John R. Hughes, Larry D. Robbins
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The topographic maps of 100 patients with various types of headache (classic migraine, non-classic migraine, muscle contraction, mixed and post-traumatic) were compared to the brain maps of 38 normal controls. Patients with classic migraine showed 11 markers, but especially three of high amplitude theta on 0(1) and alpha on 0(1) and T6, thereby ...
John R. Hughes, Larry D. Robbins
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Nature Reviews Neuroscience, 2003
Brain asymmetry has been observed in animals and humans in terms of structure, function and behaviour. This lateralization is thought to reflect evolutionary, hereditary, developmental, experiential and pathological factors. Here, we review the diverse literature describing brain asymmetries, focusing primarily on anatomical differences between the ...
Paul M. Thompson, Arthur W. Toga
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Brain asymmetry has been observed in animals and humans in terms of structure, function and behaviour. This lateralization is thought to reflect evolutionary, hereditary, developmental, experiential and pathological factors. Here, we review the diverse literature describing brain asymmetries, focusing primarily on anatomical differences between the ...
Paul M. Thompson, Arthur W. Toga
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Brain, Behavior and Evolution, 1976
This essay presents a brief review and evaluation of some guiding concepts during the past century of inquiry into localization of brain functions. Mapping methods are described and discussed as one useful set of approaches to defining functional localization.
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This essay presents a brief review and evaluation of some guiding concepts during the past century of inquiry into localization of brain functions. Mapping methods are described and discussed as one useful set of approaches to defining functional localization.
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ECMS 2013 Proceedings edited by: Webjorn Rekdalsbakken, Robin T. Bye, Houxiang Zhang, 2013
The brain controls spatial navigation in mammals by activating functionally specialized cell types in the medial temporal lobe. Key components of the spatial mapping system are place cells and grid cells. It has been known for some time that place cells are located in the hippocampus and are active only when the animal is entering a specific location ...
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The brain controls spatial navigation in mammals by activating functionally specialized cell types in the medial temporal lobe. Key components of the spatial mapping system are place cells and grid cells. It has been known for some time that place cells are located in the hippocampus and are active only when the animal is entering a specific location ...
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Annual Review of Neuroscience, 2011
The responses of neural elements in many sensory areas of the brain vary systematically with their physical position, leading to a topographic representation of the outside world. Sensory representation in the olfactory system has been harder to decipher, in part because it is difficult to find appropriate metrics to characterize odor space and to ...
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The responses of neural elements in many sensory areas of the brain vary systematically with their physical position, leading to a topographic representation of the outside world. Sensory representation in the olfactory system has been harder to decipher, in part because it is difficult to find appropriate metrics to characterize odor space and to ...
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A manifold of spatial maps in the brain
Trends in Cognitive Sciences, 2010Two neural systems are known to encode self-location in the brain: Place cells in the hippocampus encode unique locations in unique environments, whereas grid cells, border cells and head-direction cells in the parahippocampal cortex provide a universal metric for mapping positions and directions in all environments.
Edvard I. Moser, Dori Derdikman
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Brain Maps and Connectivity Representation
Neuroinformatics, 2006One of the major problems in modern science is the accumulation of data beyond what can be easily stored in our libraries and in our brains. Only informatics can help handle these data and retrieve them in the easiest and most immediately understandable and accessible way for our visualization.
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Mapping genomic loci implicates genes and synaptic biology in schizophrenia
Nature, 2022Vassily Trubetskoy +2 more
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