REFERENCES
- Calford M. B., Tweedale R. Immediate expansion of receptive fields of neurons in area 3b of macaque monkeys after digit denervation. Somatosens. Mot. Res. 1991; 8: 249–260, [INFOTRIEVE], [CSA]
- Canedo A., Aguilar J. Spatial and cortical influences exerted on cuneothalamic and thalamocortical neurons of the cat. Eur. J. Neurosci. 2000; 12: 2515–2533, [INFOTRIEVE], [CSA], [CROSSREF]
- Chen Q. C., Jen P. H. Bicuculline application affects discharge patterns, rate-intensity functions, and frequency tuning characteristics of bat auditory cortical neurons. Hear. Res. 2000; 150: 161–174, [INFOTRIEVE], [CSA], [CROSSREF]
- Chen R., Cohen L. G., Hallett M. Nervous system reorganization following injury. Neuroscience 2002; 111: 761–773, [INFOTRIEVE], [CSA], [CROSSREF]
- Chowdhury S. A., Rasmusson D. D. Effect of GABAB receptor blockade on receptive fields of raccoon somatosensory cortical neurons during reorganization. Exp. Brain Res. 2002; 145: 150–157, [INFOTRIEVE], [CSA], [CROSSREF]
- Chowdhury S. A., Rasmusson D. D. Corticocortical inhibition of peripheral inputs within primary somatosensory cortex: The role of GABA(A) and GABA(B) receptors. J. Neurophysiol. 2003; 90: 851–856, [INFOTRIEVE], [CSA]
- Corbetta M., Burton H., Sinclair R. J., Conturo T. E., Akbudak E., McDonald J. W. Functional reorganization and stability of somatosensory-motor cortical topography in a tetraplegic subject with late recovery. Proc. Natl. Acad. Sci. USA 2002; 99: 17066–17071, [INFOTRIEVE], [CSA], [CROSSREF]
- Doetsch G. S. Perceptual significance of somatosensory cortical reorganization following peripheral denervation. Neuroreport 1998; 9: R29–35, [INFOTRIEVE], [CSA]
- Dykes R. W., Landry P., Metherate R., Hicks T. P. Functional role of GABA in cat primary somatosensory cortex: Shaping receptive fields of cortical neurons. J. Neurophysiol. 1984; 52: 1066–1093, [INFOTRIEVE], [CSA]
- Eysel U. T., Schweigart G., Mittmann T., Eyding D., Qu Y., Vandesande F., Orban G., Arckens L. Reorganization in the visual cortex after retinal and cortical damage. Restor. Neurol. Neurosci. 1999; 15: 153–164, [INFOTRIEVE], [CSA]
- Eytan D., Brenner N., Marom S. Selective adaptation in networks of cortical neurons. J. Neurosci. 2003; 23: 9349–9356, [INFOTRIEVE], [CSA]
- Flor H. Remapping somatosensory cortex after injury. Adv. Neurol. 2003; 93: 195–204, [INFOTRIEVE], [CSA]
- Funke K., Meller P., Pape H. C., Eysel U. T. Linear and non-linear components in the centre-surround response of X- and Y-cells in the cat lateral geniculate nucleus. Brain Res. 1996; 742: 50–62, [INFOTRIEVE], [CSA], [CROSSREF]
- Garraghty P. E., Kaas J. H. Large-scale functional reorganization in adult monkey cortex after peripheral nerve injury. Proc. Natl. Acad. Sci. USA 1991; 88: 6976–6980, [INFOTRIEVE], [CSA]
- He H. Y., Rasmusson D. D., Quinlan E. M. Progressive elevations in AMPA and GABAA receptor levels in deafferented somatosensory cortex. J. Neurochem. 2004; 90: 1186–1193, [INFOTRIEVE], [CSA], [CROSSREF]
- Jones E. G. Cortical and subcortical contributions to activity-dependent plasticity in primate somatosensory cortex. Annu. Rev. Neurosci. 2000; 23: 1–37, [INFOTRIEVE], [CSA], [CROSSREF]
- Kaas J. H. The reorganization of somatosensory and motor cortex after peripheral nerve or spinal cord injury in primates. Prog. Brain Res. 2000; 128: 173–179, [INFOTRIEVE], [CSA]
- Kaas J. H., Collins C. E. Anatomic and functional reorganization of somatosensory cortex in mature primates after peripheral nerve and spinal cord injury. Adv. Neurol. 2003; 93: 87–95, [INFOTRIEVE], [CSA]
- Liepert J., Bauder H., Wolfgang H. R., Miltner W. H., Taub E., Weiller C. Treatment-induced cortical reorganization after stroke in humans. Stroke 2000; 31: 1210–1216, [INFOTRIEVE], [CSA]
- Manger P. R., Woods T. M., Jones E. G. Plasticity of the somatosensory cortical map in macaque monkeys after chronic partial amputation of a digit. Proc. R. Soc. Lond. B Biol. Sci. 1996; 263: 933–939, [CSA]
- Merzenich M. M., Nelson R. J., Stryker M. P., Cynader M. S., Schoppmann A., Zook J. M. Somatosensory cortical map changes following digit amputation in adult monkeys. J. Comp. Neurol. 1984; 224: 591–605, [INFOTRIEVE], [CSA], [CROSSREF]
- Northgrave S. A., Rasmusson D. D. The immediate effects of peripheral deafferentation on neurons of the cuneate nucleus in raccoons. Somatosens. Mot. Res. 1996; 13: 103–113, [INFOTRIEVE], [CSA]
- Plumbley M. D. Do cortical maps adapt to optimize information density?. Network 1999; 10: 41–58, [INFOTRIEVE], [CSA]
- Plumbley M. D. Do cortical maps adapt to optimize information density?. Network 1999; 10: 41–58, [INFOTRIEVE], [CSA]
- Pons T. P., Garraghty P. E., Ommaya A. K., Kaas J. H., Taub E., Mishkin M. Massive cortical reorganization after sensory deafferentation in adult macaques. Science 1991; 252: 1857–1860, [PUBMED], [INFOTRIEVE], [CSA]
- Rasmusson D. D. Reorganization of raccoon somatosensory cortex following removal of the fifth digit. J. Comp. Neurol. 1982; 205: 313–326, [INFOTRIEVE], [CSA], [CROSSREF]
- Rasmusson D. D. Changes in the response properties of neurons in the ventroposterior lateral thalamic nucleus of the raccoon after peripheral deafferentation. J. Neurophysiol. 1996; 75: 2441–2450, [INFOTRIEVE], [CSA]
- Recanzone G. H., Allard T. T., Jenkins W. M., Merzenich M. M. Receptive-field changes induced by peripheral nerve stimulation in SI of adult cats. J Neurophysiol 1990; 63: 1213–1225, [INFOTRIEVE], [CSA]
- Recanzone G. H., Jenkins W. M., Hradek G. T., Merzenich M. M. Progressive improvement in discriminative abilities in adult owl monkeys performing a tactile frequency discrimination task. J. Neurophysiol. 1992a; 67: 1015–1030, [INFOTRIEVE], [CSA]
- Recanzone G. H., Merzenich M. M., Jenkins W. M., Grajski K. A., Dinse H. R. Topographic reorganization of the hand representation in cortical area 3b owl monkeys trained in a frequency-discrimination task. J. Neurophysiol. 1992b; 67: 1031–1056, [INFOTRIEVE], [CSA]
- Rosier A. M., Arckens L., Demeulemeester H., Orban G. A., Eysel U. T., Wu Y. J., Vandesande F. Effect of sensory deafferentation on immunoreactivity of GABAergic cells and on GABA receptors in the adult cat visual cortex. J. Comp. Neurol. 1995; 359: 476–489, [INFOTRIEVE], [CSA], [CROSSREF]
- Seil F. J. Recovery and repair issues after stroke from the scientific perspective. Curr. Opin. Neurol. 1997; 10: 49–51, [INFOTRIEVE], [CSA]
- Sillito A. M. Inhibitory processes underlying the directional specificity of simple, complex and hypercomplex cells in the cat's visual cortex. J. Physiol. 1977; 271: 699–720, [INFOTRIEVE], [CSA]
- Sillito A. M., Versiani V. The contribution of excitatory and inhibitory inputs to the length preference of hypercomplex cells in layers II and III of the cat's striate cortex. J. Physiol. 1977; 273: 775–790, [INFOTRIEVE], [CSA]
- Tremere L., Hicks T. P., Rasmusson D. D. Expansion of receptive fields in raccoon somatosensory cortex in vivo by GABA(A) receptor antagonism: Implications for cortical reorganization. Exp. Brain Res. 2001a; 136: 447–455, [INFOTRIEVE], [CSA], [CROSSREF]
- Tremere L., Hicks T. P., Rasmusson D. D. Role of inhibition in cortical reorganization of the adult raccoon revealed by microiontophoretic blockade of GABA(A) receptors. J. Neurophysiol. 2001b; 86: 94–103, [INFOTRIEVE], [CSA]
- Tremere L. A., Pinaud R., De Weerd P. Contributions of inhibitory mechanisms to perceptual completion and cortical reorganization. Filling-in: From perceptual completion to cortical reorganization, L. Pessoa, P. De Weerd. Oxford University Press, New York 2003; 295–322
- Warren S., Hamalainen H. A., Gardner E. P. Coding of the spatial period of gratings rolled across the receptive fields of somatosensory cortical neurons in awake monkeys. J. Neurophysiol. 1986a; 56: 623–639, [INFOTRIEVE], [CSA]
- Warren S., Hamalainen H. A., Gardner E. P. Objective classification of motion- and direction-sensitive neurons in primary somatosensory cortex of awake monkeys. J. Neurophysiol. 1986b; 56: 598–622, [INFOTRIEVE], [CSA]
- Wirth C., Luscher H. R. Spatiotemporal evolution of excitation and inhibition in the rat barrel cortex investigated with multielectrode arrays. J. Neurophysiol. 2004; 91: 1635–1647, [INFOTRIEVE], [CSA], [CROSSREF]
- Yang T. T., Gallen C. C., Ramachandran V. S., Cobb S., Schwartz B. J., Bloom F. E. Noninvasive detection of cerebral plasticity in adult human somatosensory cortex. Neuroreport 1994; 5: 701–704, [INFOTRIEVE], [CSA]