References
- Waltzman SB, Roland JT. Cochlear implantation in children younger than 12 months. Pediatrics. 2005;116:e487–e493.
- Tomblin J, Barker B, Spencer L, et al. The effect of age at cochlear implant initial stimulation on expressive language growth. J Speech Lang Hear Res. 2005;48:853–867.
- Clark JH, Yeagle J, Arbaje AI, et al. Cochlear implant rehabilitation in older adults: literature review and proposal of a conceptual framework. J Am Geriatr Soc. 2012;60:1936–1945.
- Shannon RV, Fu QJ, Galvin J, et al. Speech perception with cochlear implants. In: Zeng FG, Popper AN, Fay RR, editors. Cochlear implants: auditory prostheses and electric hearing. Springer Handbook of Auditory Research, vol 20. New York (NY): Springer.
- Rahne T, Ziese M, Rostalski D, et al. Logatome discrimination in cochlear implant users: subjective tests compared to the mismatch negativity. Sci World J. 2010;10:329–339.
- Sharma A, Dorman M, Spahr T. A sensitive period for the development of the central auditory system in children with cochlear implants. Ear Hear. 2002;23:532–539.
- Rocha-Muniz CN, Befi-Lopes DM, Schochat E. Investigation of auditory processing disorder and language impairment using the speech-evoked auditory brainstem response. Hear Res. 2012;294:143–152.
- Näätänen R, Petersen B, Torppa R, et al. The MMN as a viable and objective marker of auditory development in CI users. Hear Res. 2017;353:57–75.
- Gabr TA, Hassaan MR. Speech processing in children with cochlear implant. Int J Pediatr Otorhinolaryngol. 2015;79:2028–2034.
- Kotby MN, Khairy A, Barakah M, et al. Language testing of Arabic speaking children. Proceeding of the XVIII World Congress of the International Association of Logopedics and Phoniatric; 263–266 (WCIALP '95), Cairo, Egypt; 1995.
- Melika L. Stanford Binet Intelligence Scale (4th Arabic version). 2nd ed. Cairo, Egypt: Victor Kiorlos Publishing; 1998.
- Wible B, Nicol T, Kraus N. Atypical brainstem representation of onset and formant structure of speech sounds in children with language-based learning problems. Biol Psychol. 2004;67:299–317.
- Zeng FG, Grant G, Niparko J, et al. Speech dynamic range and its effect on cochlear implant performance. J Acoust Soc Am. 2002;111:377–386.
- Zeng FG, Galvin J, Zhang CY. Encoding loudness by electric stimulation of the auditory nerve. Neuroreport. 1998;9:1845–1848.
- Loizou PC, Poroy O, Dorman M. The effect of parametric variations of cochlear implant processors on speech understanding. J Acoust Soc Am. 2000;108:790–802.
- Manrique M, Cervera-Paz FJ, Huarte A, et al. Cerebral auditory plasticity and cochlear implants. Int J Pediatr Otorhinolaryngol. 1999;49:S193–S197.
- Russo N, Nicol T, Musacchia G, et al. Brainstem responses to speech syllables. Clin Neurophysiol. 2004;115:2021–2030.
- Tallal P, Stark R. Speech acoustic-cue discrimination abilities of normally developing and language-impaired children. J Acoust Soc Am. 1981;69:568–574.
- Walton JP, Barsz K, Wilson WW. Sensorineural hearing loss and neural correlates of temporal acuity in the inferior colliculus of the C57bl/6 mouse. J Assoc Res Otolaryngol. 2008;9:90–101.
- Tremblay KL, Piskosz M, Souza P. Aging alters the neural representation of speech cues. Neuroreport. 2002;13:1865–1870.
- Kraus N, Micco G, Koch DB, et al. The mismatch negativity cortical evoked potential elicited by speech in cochlear-implant users. Hear Res. 1993;65:118–124.
- Eggermont JJ, Ponton CW, Don M, et al. Maturational delays in cortical evoked potentials in cochlear implant users. Acta Otolaryngol. 1997;117:161–163.
- Kral A, Sharma A. Developmental neuroplasticity after cochlear implantation. Trends Neurosci. 2012;35:111–122.
- Neville HJ, Schmidt A, Kutas M. Altered visual-evoked potentials in congenitally deaf adults. Brain Res. 1983;266:127–132.
- Sharma A, Glick H, Deeves E, et al. The P1 biomarker for assessing cortical maturation in pediatric hearing loss: a review. Otorinolaringologia. 2015;65:103–114.
- Sharma A, Campbell J, Cardon G. Developmental and cross modal plasticity in deafness: evidence from the P1 and N1 event related potentials in cochlear implanted children. Int J Psychophysiol. 2015;95:135–144.
- Galey FR. Initial observations of a human temporal bone with a multi-channel implant. Acta Otolaryngol Suppl. 1984;411:38–44.
- Gantz B, Tyler RS, Abbas PJ, et al. Evaluation of five different cochlear implant designs: audiologic assessment and predictors of performance. Laryngoscope. 1988;98:1100–1106.
- Cazals Y, Pelizzone M, Kasper A, et al. Multichannel cochlear implant patients with different open speech understanding show some similar basic psychophysical results. Acta Otolaryngol Suppl. 1990;S469:150–155.
- Rescorla L. Language and reading outcomes to age 9 in late-talking toddlers. J Speech Lang Hear Res. 2002;45:360–371.
- Nathan L, Stackhouse J, Goulandris N, et al. The development of early literacy skills among children with speech difficulties: a test of the “critical age hypothesis”. J Speech Lang Hear Res. 2004;47:377–391.
- Hart B, Risley TR. Meaningful differences in the everyday experience of young American children. Paul H. Baltimore (MD): Brookes Publishing Co; 1995.
- Baltaxe C, Emotional, behavioral, and other psychiatric disorders of childhood associated with communication disorders. In: Layton T, Crais R, Watson L, editors. Handbook of early language impairment in children: Nature. Albany (NY): Delmar Publishing; 2001. p. 63–125.
- Greenberg MT, Kusche CA. Promoting social and emotional development in deaf children: the PATHS Project. Seattle (WA): U. of Washington Press; 1993
- Toppelberg CO, Shapiro T. Language disorders: a 10-year research update review. J Am Acad Child Adolesc Psychiatry. 2000;39:143–152.