Selected Research Publications

Sharma, A., Cardon, G., Henion, K., and Roland, P. Cortical maturation and behavioral outcomes in children with auditory neuropathy spectrum disorder. International Journal of Audiology, 50, 98-106, 2011.
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Sharma, A, Nash, A, and Dorman, M. Cortical development, plasticity and re-organization in children with cochlear implants.  Journal of Communication Disorders, 42, 272-279, 2009.
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Gilley, P.M., Sharma, A., and Dorman, M.F. Cortical reorganization in children with cochlear implants. Brain Research, 1239, 56-65, 2008.
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King, K.A., Campbell, J., Sharma, A., Martin, K., Dorman, M., and Langran, J. The representation of voice onset time in the cortical auditory evoked potentials of young children. Clinical Neurophysiology, 119, 2855-2861, 2008.
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Nash, A, Sharma, A, and Dorman, M. Clinical applications of the P1 central auditory evoked potential (CAEP) biomarker. A Sound Foundation Through Early Amplification: Proceedings of a Fourth International Conference. Chicago, IL: 2007.
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Sharma, A., Gilley, P. M., Dorman, M.F. and Baldwin, R. Deprivation-induced cortical reorganization in children with cochlear implants. International Journal of Audiology, 46, 494-499, 2007.
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Sharma, A., Gilley, P. M., Martin, K., Roland, P., Bauer, P. and Dorman, M. Simultaneous versus sequential bilateral implantation in young children: Effects on central auditory system development and plasticity. Audiological Medicine,5:4,218 — 223, 2007.
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Bauer, P, Sharma, A, Martin, K and Dorman, M. Central auditory development in children with bilateral cochlear implants. Archives of Otolaryngology Head and Neck Surgery, 132, 1133-1136, 2006.
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Gilley, P, Sharma, A, Dorman, M and Martin, K. Abnormalities in central auditory maturation in children with language-based learning problems. Clinical Neurophysiology, 117, 1949-1956, 2006.
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Sharma, A, and Dorman, M. Central auditory development in children with cochlear implants: clinical implications. Advanced Otorhinolaryngology, 64, 66-88, 2006.
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Gilley, P, Sharma, A, Dorman, M, Finley, C, Panch, A, and Martin, K. Minimization of cochlear implant stimulus artifact in cortical auditory evoked potentials. Clnical Neurophysiology, 117, 1772-1782, 2006.
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Sharma, A, Martin K, Roland, P, Bauer, P, Sweeney, M, Gilley, P and Dorman M. P1 latency is a biomarker for central auditory development in children with hearing impairment. Journal of the American Academy of Audiology, 16, 564-573, 2005.
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Sharma, A, Dorman M and Kral A. The influence of a sensitive period on central auditory development in children with unilateral and bilateral cochlear implants. Hearing Research, 203, 134-143, 2005
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Sharma A and Dorman M. The clinical use of P1 latency as a biomarker for assessment of central auditory development in children with Hearing Impairment. Audiology Today (17)3, 18-19, May 2005

Gilley, P, Sharma, A, Dorman M and Martin K. Developmental changes in refractoriness of the cortical auditory evoked potential. Clinical Neurophysiology, 116(3), 648-657, 2005.
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Sharma, A, Tobey E, Dorman M, Martin K, Gilley P and Kunkel F. Central auditory maturation and babbling development in infants with cochlear implants Archives of Otolaryngology-Head and Neck Surgery Vol 130 (5) 511-6, 2004.
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Sharma A, Dorman M and Spahr A. A sensitive period for the development of the central auditory system in children with cochlear implants: Implications for age of implantation. Ear and Hearing Vol 23 (6), 532-539, 2002
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Sharma A, Dorman M and Spahr A. Rapid development of cortical auditory evoked potentials after early cochlear implantation. NeuroReport, Vol 13 (10), 1-4, 2002.
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Sharma A, Dorman M, Spahr A and Todd. Early cochlear implantation allows for normal development of cortical auditory pathways. Annals of Otology, Rhinology and Laryngology, Vol 111 (5), 38-41, 2002.

Sharma A, Marsh C and Dorman M. Relationship between N1 evoked potential morphology and perception of voicing. Journal of the Acoustical Society of America, Journal of the Acoustical Society of America 108 (6), 3030-3035, 2000.
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Sharma A and Dorman M. Neurophysiologic correlates of cross-language phonetic perception. Journal of the Acoustical Society of America 107(5), 2697-2703, 2000.
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Sharma A and Dorman M. Cortical Auditory evoked potential correlates of categorical perception of voice-onset time. Journal of the Acoustical Society of America, 106 (2), 1078-1083, 1999.
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Sharma A and Dorman M. Exploration of the perceptual magnet effect using the mismatch negativity event-related potential. Journal of the Acoustical Society of America, 104, 511-517, 1998.
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Sharma A, Kraus N, McGee T & Nicol T. Developmental changes in P1 & N1 auditory responses elicited by consonant-vowel syllables. Electroencephalography and Clinical Neurophysiology, 104, 540-545, 1997.
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Sharma A, Kraus N, McGee T, Carrell T, Nicol T. Acoustic vs. phonetic representation of speech stimuli as reflected by the mismatch negativity event-related potential. Electroencephalography and Clinical Neurophysiology, 88, 64-71, 1993.
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