Tonotopic Mapping in Auditory Cortex of the Adult Chinchilla with Amikacin-Induced cochlear Lesions: Mapeo tonotópico de la corteza auditiva de la chinchilla adulta con lesiones cocleares inducidas con amikacina
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A Kakigi | H Hirakawa | N Harel | R J Mount | R V Harrison | A. Kakigi | H. Hirakawa | N. Harel | R. J. Mount | R. V. Harrison | Akinobu Kakigi | Haruo Hirakawa | Noam Harel | Richard J. Mount | Robert V. Harrison
[1] J. D. Miller,et al. A frequency-position map for the chinchilla cochlea. , 1977, The Journal of the Acoustical Society of America.
[2] D. Rasmusson,et al. Reorganization of raccoon somatosensory cortex following removal of the fifth digit , 1982, The Journal of comparative neurology.
[3] J. Kaas,et al. The reorganization of somatosensory cortex following peripheral nerve damage in adult and developing mammals. , 1983, Annual review of neuroscience.
[4] M. Cynader,et al. Somatosensory cortical map changes following digit amputation in adult monkeys , 1984, The Journal of comparative neurology.
[5] Donald Robertson,et al. Plasticity of frequency organization in auditory cortex of guinea pigs with partial unilateral deafness , 1989, The Journal of comparative neurology.
[6] J. Kaas,et al. Reorganization of retinotopic cortical maps in adult mammals after lesions of the retina. , 1990, Science.
[7] D. W. Smith,et al. Reorganization of auditory cortex after neonatal high frequency cochlear hearing loss , 1991, Hearing Research.
[8] J. Kaas. Plasticity of sensory and motor maps in adult mammals. , 1991, Annual review of neuroscience.
[9] A. King,et al. Plasticity of auditory maps in the brain , 1991, Trends in Neurosciences.
[10] J. Kaas,et al. Neuroplasticity of the adult primate auditory cortex following cochlear hearing loss. , 1993, The American journal of otology.
[11] S. Stanton,et al. Neonatal cochlear hearing loss results in developmental abnormalities of the central auditory pathways. , 1993, Acta oto-laryngologica.
[12] D. Irvine,et al. Effect of unilateral partial cochlear lesions in adult cats on the representation of lesioned and unlesioned cochleas in primary auditory cortex , 1993, The Journal of comparative neurology.
[13] D. C. Gordon,et al. Auditory evoked potentials in cats with neonatal high frequency hearing loss. Evidence of abnormal frequency representation in the midbrain. , 1993, Acta oto-laryngologica.
[14] P. Zarzecki,et al. Synaptic mechanisms of cortical representational plasticity: somatosensory and corticocortical EPSPs in reorganized raccoon SI cortex. , 1993, Journal of neurophysiology.
[15] J. Rauschecker. Compensatory plasticity and sensory substitution in the cerebral cortex , 1995, Trends in Neurosciences.
[16] Drf Irvine,et al. INJURY‐ AND USE‐RELATED PLASTICITY IN THE PRIMARY SENSORY CORTEX OF ADULT MAMMALS: POSSIBLE RELATIONSHIP TO PERCEPTUAL LEARNING , 1996, Clinical and experimental pharmacology & physiology.
[17] N. Harel,et al. Tonotopic mapping in auditory cortex of the chinchilla , 1996, Hearing Research.
[18] R. Harrison,et al. Plasticity of tonotopic maps in auditory midbrain following partial cochlear damage in the developing chinchilla , 1998, Experimental Brain Research.
[19] D. Irvine,et al. Neuronal Responses across Cortical Field A1 in Plasticity Induced by Peripheral Auditory Organ Damage , 1998, Audiology and Neurotology.
[20] R. Harrison. Developmental Plasticity of Cortical Areas of the Auditory System , 1998 .
[21] D. Irvine,et al. Absence of plasticity of the frequency map in dorsal cochlear nucleus of adult cats after unilateral partial cochlear lesions , 1998, The Journal of comparative neurology.