視覚系における可塑性 Plasticity in the Visual System : From Genes to Circuits （2006. 520 p. w. 36 figs.）

視覚系における可塑性<br>Plasticity in the Visual System : From Genes to Circuits （2006. 520 p. w. 36 figs.）

視覚系における可塑性
Plasticity in the Visual System : From Genes to Circuits （2006. 520 p. w. 36 figs.）

Ed. by R. Pinaud, L. A. Tremere, P. De Weerd

SPRINGER, BERLIN（2006発売）

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製本 Hardcover:ハードカバー版／ページ数 364 p.／サイズ 36 illus.
言語 ENG
商品コード 9780387281896

基本説明

Discusses retinal plasticity; directly addresses the role of immediate early genes as the first genetic outlet in the cell's plastic response; and addresses dynamic plasticity in higher order visual areas and relates them to the brain mechanisms that underlie complex behaviors.

Full Description

Mechanisms of neural plasticity enable the encoding and memorization of information based on sensory inputs and can be harnessed to partially restore function after CNS assault such as stroke or head trauma. In the present book, experts from the field of visual system plasticity describe and evaluate the evidence for neural mechanisms proposed to underlie CNS plasticity in the major divisions of the brain dedicated to visual processing, the retina, sub-cortical structures and cortex. We present studies from a wide variety of disciplines that range from molecular biology to neurophysiology and computer modeling. Leading investigators discuss their own work, and integrate this research with colleagues from other specializations. The book points out future applications for this research including clinical uses and engineering within the biomedical sciences. This book is an exciting and thought provoking read for all levels of science enthusiast interested in the physical basis of learning and cognition.

Perception of motion, depth, and form.- to Plasticity in the Visual System: From Genes to Circuits.- Retinal and Thalamic Plasticity.- Synaptic Plasticity and Structural Remodeling of Rod and Cone Cells.- Retinal Remodeling: Circuitry Revisions Triggered by Photoreceptor Degeneration.- Retinal Plasticity and Interactive Cellular Remodeling in Retinal Detachment and Reattachment.- Experience-Dependent Rewiring of Retinal Circuitry: Involvement of Immediate Early Genes.- Attentional Activation of Cortico-Reticulo-Thalamic Pathways Revealed by Fos Imaging.- Cortical Plasticity.- Neuromodulatory Transmitters in Sensory Processing and Plasticity in the Primary Visual Cortex.- Critical Calcium-Regulated Biochemical and Gene Expression Programs involved in Experience-Dependent Plasticity.- The Molecular Biology of Sensory Map Plasticity in Adult Mammals.- Plasticity of Retinotopic Maps in Visual Cortex of Cats and Monkeys After Lesions of the Retina or Primary Visual Cortex.- Intra-cortical Inhibition in the Regulation of Receptive Field Properties And Neural Plasticity in the Primary Visual Cortex.- Plasticity in V1 Induced by Perceptual Learning.- Investigating Higher Order Cognitive Functions in the Dorsal (magnocellular) Stream of Visual Processing.- Dopamine-Dependent Associative Learning of Workload-Predicting Cues in the Temporal Lobe of the Monkey.- Theoretical Considerations.- Linking Visual Development and Learning to Information Processing: Preattentive and Attentive Brain Dynamics.- Conclusion: A Unified Theoretical Framework for Plasticity in Visual Circuitry.