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List of contributors xi
Vision
Reprogramming of striate and extrastriate visual cortices following retinal lesions B. Dreher 3
Visual cortex reprogramming following retinal lesions or artificial scotomas: perceptual effects and neural circuitry W. Burke 47
Remodeling of cortical connections and enhanced long-term potentiation after lesions of the visual cortex Ulf T. Eysel Thomas Mittmann 61
Redistribution of cerebral functions following primary visual cortex damage during infancy Stephen G. Lomber Bertram R. Payne 73
Behavioral and neural alterations following VI damage in immature primates Hillary R. Rodman 91
Neurochemical changes underlying motion perception plasticity after lesions of extrastriate visual cortex in adult cats Krystel R. Huxlin 115
Audition
A time-line of auditory cortical reorganization after noise-induced hearing loss Jos J. Eggermont 143
Development, maintenance and plasticity of tonotopic projections from cochlea to auditory cortex Robert V. Harrison 159
Central auditory plasticity in mouse models of progressive sensorineural hearing loss James F. Willott 181
Recruitment of the auditory cortex in congenitally deaf cats Andrej Kral Rainer Hartmann Rainer Klinke 193
Critical periods for human cortical development: an ERP study in children with cochlear implant Curtis W. Ponton 213
Somatomotor
Neuronal plasticity after stroke: evidence from animal models of postinjury recovery Randolph J. Nudo Ines Eisner-Janowicz 231
Reprogramming surviving motor cortex after stroke Wolf Muellbacher Mark Hallett 257
Cerebral reprogramming underlying functional recovery following stroke Nick S. Ward Richard S. J. Frackowiak 273
Reorganization of somatosensory and motor cortex following peripheral nerve or spinal cord injury in primates Jon H. Kaas Yvonne Rothemund 285
Critical periods for functional recovery after cortical injury during development Bryan Kolb Robbin Gibb 297
Reprogramming the motor cortex for functional recovery after neonatal or adult unilateral lesion of the corticospinal system in the macaque monkey E. M. Rouiller T. Wannier E. Schmidlin Y. Liu 309
Adaptive functional changes in the cerebral cortex during multiple sclerosis Hasini Reddy 325
Cortical reprogramming: significance for phantom phenomena and clinical implications Herta Flor Caroline Koeppe 333
Cross-modal
Reprogramming cortex: the consequences of cross-modal plasticity during development Jessica R. Newton Ania K. Majewska Charlene Ellsworth Mriganka Sur 349
Adaptive plasticity and sensory substitution in the cerebral cortex Josef P. Rauschecker 361
Activation of the visual cortex by Braille reading in blind subjects Lotfi B. Merabet Amir Amedi Alvaro Pascual-Leone 377
Sound localization in early-blind human subjects: evidence for adaptive cortical plasticity Dave Saint-Amour Jean-Paul Guillemot Maryse Lassonde Franco Lepore 395
Cognition
The longitudinal study of spatial cognitive development in children with pre-or perinatal focal brain injury: evidence for cognitive compensation and for the emergence of alternative profiles of brain organization Joan Stiles Pamela Moses Brianna M. Paul 415
Index 429
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Joseph Hinton
reviewed Reprogramming the Cerebral Cortex: Plasticity Following Central and Peripheral Lesions on September 07, 2016
Reprogramming the Cerebral Cortex
I was asked to review this book for Nature. I accepted the assignment because it is a book about fragile X syndrome and I have a project about this condition.
I was completely blown away - this is a phenomenal book - among the best I have ever read. Clare Dunsford is a masterful writer, but more than that - she is a truth-teller, a truth-seeker, and a revolutionary. Her ability to guide the reader through the experiences associated with having a child with fragile X is so exquisite, that even those with children with different conditions (I have two kids with pseudoxanthoma elasticum (PXE) ), will find their own story told.
I have written my review, which is suppose to appear in the July issue of Nature. I have also decided, with my colleagues, to award Clare Dunsford the Genetic Alliance Art of Advocacy Award in July, at the Genetic Alliance Annual Conference (www.geneticalliance.org).
Wow.
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Add Reprogramming the Cerebral Cortex: Plasticity Following Central and Peripheral Lesions, The brain has a remarkable ability to adapt in the event of damage - in many cases shifting responsibility for specific cognitive functions to other non-damaged brain regions. This 'plasticity' can be crucial in aiding recovery from stroke, trauma, and pe, Reprogramming the Cerebral Cortex: Plasticity Following Central and Peripheral Lesions to the inventory that you are selling on WonderClubX
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Add Reprogramming the Cerebral Cortex: Plasticity Following Central and Peripheral Lesions, The brain has a remarkable ability to adapt in the event of damage - in many cases shifting responsibility for specific cognitive functions to other non-damaged brain regions. This 'plasticity' can be crucial in aiding recovery from stroke, trauma, and pe, Reprogramming the Cerebral Cortex: Plasticity Following Central and Peripheral Lesions to your collection on WonderClub |