The Cat Primary Visual CortexBertram Payne, Alan Peters Academic Press, 17 նոյ, 2001 թ. - 725 էջ Written by experts on the forefront of investigations of brain function, vision, and perception, the material presented is of an unparalleled scientific quality, and shows that analyses of enormous breadth and sophistication are required to probe the structure and function of brain regions. The articles are highly persuasive in showing what can be achieved by carrying out careful and imaginative experiments. The Cat Primary Visual Cortex should emerge as essential reading for all those interested in cerebral cortical processing of visual signals or researching or working in any field of vision.
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131 | |
Chapter 3 2Deoxyglucose Architecture of Cat Primary Visual Cortex | 167 |
Chapter 4 Functional Mapping in The Cat Primary Visual Cortex Using High Magnetic Fields | 195 |
Chapter 5 Relationship of LGN Afferents and Cortical Efferents to Cytochrome Oxidase Blobs | 221 |
Chapter 6 Influmence of Topography and Ocular Dominace on The Functional Organization of Callosal Connections in Cat Striate Cortex | 259 |
Chapter 7 Essential and Sustaining LGN Inputs to Cat Primary Visual Cortex | 295 |
Chapter 8 Integration of Thalamic Input to Cat Primary Visual Cortex | 319 |
Chapter 10 LongIntrinsic Connections in Cat Primary Visual Cortex | 387 |
Chapter 11 Pharmacological Studies on Receptive Field Architecture | 427 |
Chapter 12 Orientation Selevtivity and Its Modulation by Local and LongRange Connection in Visual Cortex | 471 |
Chapter 13 Response Synchronization Gamma Oscillations and Perceptual Binding in Cat Primary Visual Cortex | 521 |
Chapter 14 The Special Relationship Between β Retinal Ganglion Cells and Cat Primary Visual Cortex | 561 |
Chapter 15 Primary Visual Cortex Within the CorticoNetwork | 609 |
Chapter 16 Behavioral Analyses of The Contributions of Cat Primary Visual Cortex to Vision | 655 |
Index | 695 |
Chapter 9 The Emergence of Direction Selectivity in Cat Primary Visual Cortex | 343 |
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Common terms and phrases
activity afferents analysis animals area 17 axons blobs Brain Res callosal cat visual cortex cat’s cerebral changes columns Comp complex connections contrast contribute correlated cortical cortical areas depend direction distribution dominance effects et al evidence excitatory experiments FIGURE functional ganglion cells Gilbert horizontal Hubel imaging inactivation increase indicated inhibition inhibitory injections inputs interactions intrinsic labeled lateral layer lesions located maps mechanisms monkey Nature neurons Neurophysiol Neurosci normal observed ocular dominance optical organization orientation pathway patterns Payne Physiol position preferred present primary visual cortex processing projections properties pyramidal receive receptive field recording regions representation represented responses retinal revealed selectivity shown shows signals similar simple cells Singer single spatial frequency specific stimulus striate cortex structure studies suggested synaptic synchronization temporal terminals tion tuning types visual field Wiesel
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Էջ 514 - Ferster, D., Chung, S., and Wheat, H. (1996). Orientation selectivity of thalamic input to simple cells of cat visual cortex. Nature 380, 249-252.
Էջ 291 - Innocenti, GM, and Frost, DO (1980). The postnatal development of visual callosal connections in the absence of visual experience or of the eyes. Exp. Brain Res. 39, 365-375.
Էջ 320 - To summarize: these fields were termed "simple" because like retinal and geniculate fields ( 1 ) they were subdivided into distinct excitatory and inhibitory regions; (2) there was summation within the separate excitatory and inhibitory parts; (3) there was antagonism between excitatory and inhibitory regions; and (4) it was possible to predict responses to stationary or moving spots of various shapes from a map of the excitatory and inhibitory areas.
Էջ 417 - E. (1985). Stimulus specific responses from beyond the classical receptive field: Neurophysiological mechanisms for local-global comparisons in visual neurons.
Էջ 219 - Vascular imprints of neuronal activity: Relationships between the dynamics of cortical blood flow, oxygenation. and volume changes following sensory stimulation.
Էջ 118 - The histochemical localization of cytochrome oxidase in the retina and lateral geniculate nucleus of the ferret, cat, and monkey, with particular reference to retinal mosaics and on/off-center visual channels - Kageyama GH and Wong-Riley MTT - Department of Anatomy, University of California, San Francisco, CA 94143 USA - J.
Էջ 220 - BOLD based functional MRI at 4 Tesla includes a capillary bed contribution: echo-planar imaging correlates with previous optical imaging using intrinsic signals.
Էջ 338 - Functional connectivity between simple cells and complex cells in cat striate cortex.
Էջ 602 - MATTHEWS, MR AND NELSON, VH 1975. Detachment of structurally intact nerve endings from chromatolytic neurones of rat superior cervical ganglion during the depression of synaptic transmission induced by post-ganglionic axotomy. J. Physiol.
Էջ 159 - Gross, CG (1984). Columnar Organization of Directionally Selective Cells in Visual Area MT of the Macaque.