Plasticity of orientation preference maps in the visual cortex of adult cats
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Ben Godde | B. Godde | H. Dinse | S. M. Cords | Hubert R Dinse | R. Leonhardt | Ralph Leonhardt | Sven M Cords
[1] P. Maldonado,et al. Neuronal assembly dynamics in the rat auditory cortex during reorganization induced by intracortical microstimulation , 1996, Experimental Brain Research.
[2] S. Wacquant,et al. A columnar model of somatosensory reorganizational plasticity based on Hebbian and non-Hebbian learning rules , 1996, Biological Cybernetics.
[3] G. Bi,et al. Synaptic modification by correlated activity: Hebb's postulate revisited. , 2001, Annual review of neuroscience.
[4] W. Singer,et al. Functional Specificity of Long-Range Intrinsic and Interhemispheric Connections in the Visual Cortex of Strabismic Cats , 1997, The Journal of Neuroscience.
[5] C. Blakemore. Genetic instructions and developmental plasticity in the kitten's visual cortex. , 1977, Philosophical transactions of the Royal Society of London. Series B, Biological sciences.
[6] H. Dinse,et al. A repetitive intracortical microstimulation pattern induces long-lasting synaptic depression in brain slices of the rat primary somatosensory cortex , 2000, Experimental Brain Research.
[7] M. Sur,et al. Foci of orientation plasticity in visual cortex , 2001, Nature.
[8] R. Shapley,et al. New perspectives on the mechanisms for orientation selectivity , 1997, Current Opinion in Neurobiology.
[9] T. Wiesel,et al. Columnar specificity of intrinsic horizontal and corticocortical connections in cat visual cortex , 1989, The Journal of neuroscience : the official journal of the Society for Neuroscience.
[10] Y. Frégnac,et al. A cellular analogue of visual cortical plasticity , 1988, Nature.
[11] J. Lund,et al. Widespread periodic intrinsic connections in the tree shrew visual cortex. , 1982, Science.
[12] C. Gilbert,et al. Long-range horizontal connections and their role in cortical reorganization revealed by optical recording of cat primary visual cortex , 1995, Nature.
[13] C. Gilbert,et al. Learning to see: experience and attention in primary visual cortex , 2001, Nature Neuroscience.
[14] C. Malsburg. Self-organization of orientation sensitive cells in the striate cortex , 2004, Kybernetik.
[15] J. Donoghue,et al. Strengthening of horizontal cortical connections following skill learning , 1998, Nature Neuroscience.
[16] M. Merzenich,et al. Repetitive microstimulation alters the cortical representation of movements in adult rats. , 1990, Somatosensory & motor research.
[17] U. Eysel,et al. Orientation-specific relationship between populations of excitatory and inhibitory lateral connections in the visual cortex of the cat. , 1997, Cerebral cortex.
[18] F. Wolf,et al. Spontaneous pinwheel annihilation during visual development , 1998, Nature.
[19] C. Gilbert. Plasticity in visual perception and physiology , 1996, Current Opinion in Neurobiology.
[20] D. Fitzpatrick,et al. The contribution of sensory experience to the maturation of orientation selectivity in ferret visual cortex , 2001, Nature.
[21] M. Sur,et al. Adaptation-Induced Plasticity of Orientation Tuning in Adult Visual Cortex , 2000, Neuron.
[22] P. Heggelund,et al. Neural plasticity in visual cortex of adult cats after exposure to visual patterns. , 1975, Science.
[23] N. Weinberger. Dynamic regulation of receptive fields and maps in the adult sensory cortex. , 1995, Annual Review of Neuroscience.
[24] Bernhard A. Sabel,et al. Computer-based training for the treatment of partial blindness , 1998, Nature Medicine.
[25] N. Suga,et al. Plasticity of bat's central auditory system evoked by focal electric stimulation of auditory and/or somatosensory cortices. , 2001, Journal of neurophysiology.
[26] F. Sengpiel,et al. Intrinsic and environmental factors in the development of functional maps in cat visual cortex , 1998, Neuropharmacology.
[27] Tobias Bonhoeffer,et al. Development of identical orientation maps for two eyes without common visual experience , 1996, Nature.
[28] M. Weliky,et al. Disruption of orientation tuning visual cortex by artificially correlated neuronal activity , 1997, Nature.
[29] N. Suga,et al. Plasticity of the cochleotopic (frequency) map in specialized and nonspecialized auditory cortices , 2001, Proceedings of the National Academy of Sciences of the United States of America.
[30] D. Buonomano,et al. Cortical plasticity: from synapses to maps. , 1998, Annual review of neuroscience.
[31] E. Todorov,et al. A local circuit approach to understanding integration of long-range inputs in primary visual cortex. , 1998, Cerebral cortex.
[32] D. Scott. Perceptual learning. , 1974, Queen's nursing journal.
[33] Fred Wolf,et al. The layout of orientation and ocular dominance domains in area 17 of strabismic cats , 1998, The European journal of neuroscience.
[34] I. G. Sil’kis,et al. Plastic reorgaizations of the receptive fields of neurons of the auditory cortex and the medial geniculate body induced by microstimulation of the auditory cortex , 1995, Neuroscience and Behavioral Physiology.
[35] T. Bonhoeffer,et al. Pairing-Induced Changes of Orientation Maps in Cat Visual Cortex , 2001, Neuron.
[36] G. Orban,et al. Practising orientation identification improves orientation coding in V1 neurons , 2001, Nature.
[37] M. Bear,et al. Experience-dependent modification of synaptic plasticity in visual cortex , 1996, Nature.
[38] D. Wilkin,et al. Neuron , 2001, Brain Research.
[39] K. Miller,et al. Is the development of orientation selectivity instructed by activity? , 1999, Journal of neurobiology.
[40] M M Merzenich,et al. Alterations in correlated activity parallel ICMS-induced representational plasticity. , 1993, Neuroreport.
[41] M. Stryker,et al. Development of Orientation Preference Maps in Ferret Primary Visual Cortex , 1996, The Journal of Neuroscience.
[42] M. Stryker,et al. The role of visual experience in the development of columns in cat visual cortex. , 1998, Science.
[43] A. Schüz. Cortical areas : unity and diversity , 2002 .
[44] G. Recanzone,et al. Expansion of the cortical representation of a specific skin field in primary somatosensory cortex by intracortical microstimulation. , 1992, Cerebral cortex.
[45] F. Sengpiel,et al. Influence of experience on orientation maps in cat visual cortex , 1999, Nature Neuroscience.
[46] S. Nelson,et al. An emergent model of orientation selectivity in cat visual cortical simple cells , 1995, The Journal of neuroscience : the official journal of the Society for Neuroscience.
[47] M. Gazzaniga,et al. The new cognitive neurosciences , 2000 .
[48] P. Raymond,et al. Development of the visual system , 1990 .
[49] D J Krupa,et al. Network level properties of short-term plasticity in the somatosensory system. , 2000, Progress in brain research.
[50] U. Eysel. Perilesional cortical dysfunction and reorganization. , 1997, Advances in neurology.
[51] U Yinon,et al. Evidence for long‐term functional plasticity in the visual cortex of adult cats , 1982, The Journal of physiology.
[52] W. D. Thompson,et al. Excitation of pyramidal tract cells by intracortical microstimulation: effective extent of stimulating current. , 1968, Journal of neurophysiology.