Perceptual Neuroscience: The Cerebral CortexThe cerebral cortex, occupying over 70 percent of our brain mass, is key to any understanding of the workings--and disorders--of the human brain. offering a comprehensive account of the role of the cerebral cortex in perception, this monumental work by one of the world's greatest living neuroscientists does nothing short of creating a new subdiscipline in the field: perceptual neuroscience. For this undertaking, Vernon Mountcastle has gathered information from a vast number of sources reaching back through two centuries of investigation into the intrinsic operations of the cortex. His survey includes phylogenetic, comparative, and neuroanatomical studies of the neocortex; studies of the large-scale organization of the neocortex, of neuronal histogenesis and the specification of cortical areas, of synaptic transmission between neurons in cortical microcircuits, and of rhythmicity and synchronization in neocortical networks; and inquiries into the binding problem--how activities among the separate processing nodes of distributed systems coalesce in a coherent activity that we call perception. The first book to summarize what is known about the physiology of the cortex in perception, Perceptual Neuroscience will be a landmark in the literature of neuroscience. |
From inside the book
Results 1-5 of 66
... 65 Intrinsic Circuits 67 Horizontal Intracortical Connections 68 The Layer I Circuit 70 The Intralaminar Thalamocortical Afferents 71 The Corticocortical Afferents 72 Afferents from the Central Core and Basal Forebrain 73 The.
... Intracortical Connectivity 197 Electrophysiological Studies 198 Metabolic Studies 200 A Comment on Secondary Histogenesis of the Barrels 201 A Central Core System Projecting to the Cortex without Columnar Organization of Its ...
... Intracortical Circuits 291 Studies in Neocortical Slices 295 Pyramidal Cell to Pyramidal Cell 296 Pyramidal Cell to Interneuron 298 Interneuron to Pyramidal Cell 298 The Rodent Barrel Cortex as Model 298 Microcircuit Operations in the ...
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Contents
Perception and the Cerebral Cortex | 1 |
The Phylogenetic Development of the Cerebral Cortex | 19 |
Cells and Local Networks of the Neocortex | 50 |
The Organization of the Neocortex | 78 |
Synaptic Transmission in the Neocortex | 103 |
Storage and Release of Synaptic Transmitters | 113 |
Direct Synaptic Transmission in the Neocortex | 119 |
ActivityDependent Changes in Synaptic Strength in the Hippocampus and Neocortex | 137 |
10 | 254 |
Dynamic Operations in Neocortical Networks | 284 |
Modulatory Control of Intrinsic Neocortical | 307 |
The Layer V Hypothesis of Cortical Function | 313 |
Rhythmicity and Synchronization in Neocortical Networks | 317 |
The Human EEG | 320 |
The Thalamus as Neuronal Oscillator and the Generation | 328 |
Spatial Inhomogeneities and the MicroEEG | 335 |
The Columnar Organization of the Neocortex | 165 |
Metabolic and Blood Flow Studies in the First Somatic | 175 |
Physiological Studies of Homotypical Cortical Areas | 185 |
Columniation by Intrinsic Connectivity | 192 |
A Central Core System Projecting to the Cortex without | 202 |
Secondary Events in Cortical Histogenesis and | 227 |
Local Synaptogenesis and the Role of Activity in Refining | 233 |
The Specification of Axonal Projections by Selective Collateral | 240 |
The Rodent Model and the Peripheral Blueprint | 249 |