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Long-term effects of cochlear implantation on the intelligibility of speech in French-speaking children

Published online by Cambridge University Press:  19 December 2019

Bénédicte GRANDON*
Affiliation:
Université Grenoble Alpes, CNRS, Grenoble INP, GIPSA-lab, Grenoble, France
Marie-José MARTINEZ
Affiliation:
Université Grenoble Alpes, CNRS, Grenoble INP, Laboratoire Jean Kuntzmann, Grenoble, France
Adeline SAMSON
Affiliation:
Université Grenoble Alpes, CNRS, Grenoble INP, Laboratoire Jean Kuntzmann, Grenoble, France
Anne VILAIN
Affiliation:
Université Grenoble Alpes, CNRS, Grenoble INP, GIPSA-lab, Grenoble, France Institut Universitaire de France
*
*Corresponding author. Gipsa-lab & Université Grenoble Alpes, 1180 Avenue Centrale - BP25, 38031GRENOBLE Cedex 9, France. E-mail: [email protected]

Abstract

Our study compares the intelligibility of French-speaking children with a cochlear implant (N = 13) and age-matched children with typical hearing (N = 13) in a narrative task. This contrasts with previous studies in which speech intelligibility of children with cochlear implants is most often tested using repetition or reading tasks. Languages other than English are seldom considered. Their productions were graded by naive and expert listeners. The results show that (1) children with CIs have lower intelligibility, (2) early implantation is a predictor of good intelligibility, and (3) late implantation after two years of age does not prevent the children from eventually reaching good intelligibility.

Type
Brief Research Reports
Copyright
Copyright © Cambridge University Press 2019

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References

Agresti, A. (2002). Categorical data analysis (2nd ed.). New York: John Wiley & Sons.CrossRefGoogle Scholar
Akaike, H. (1974). A new look at the statistical model identification. IEEE Transactions on Automatic Control, 19(6), 716–23.CrossRefGoogle Scholar
Allen, M. C., Nikolopoulos, T. P., & O'Donoghue, G. M. (1998). Speech intelligibility in children after cochlear implantation, Otology & Neurotology, 19(6), 742–6.Google ScholarPubMed
Artières, F., Vieu, A., Mondain, M., Uziel, A., & Venail, F. (2009). Impact of early cochlear implantation on the linguistic development of the deaf child. Otology & Neurotology, 30(6), 736–42.CrossRefGoogle ScholarPubMed
Blamey, P., Barry, J., Bow, C., Sarant, J., Paatsch, L., & Wales, R. (2001). The development of speech production following cochlear implantation, Clinical Linguistics & Phonetics, 15, 363–82.CrossRefGoogle Scholar
Boersma, P., & Weenink, D. (2015). Praat: doing phonetics by computer [Computer program]. Version 5.4.09, retrieved 1 June 2015 from <http://www.praat.org/>..>Google Scholar
Boons, T., De Raeve, L., Langereis, M., Peeraer, L., Wouters, J., & Van Wieringen, A. (2013). Expressive vocabulary, morphology, syntax and narrative skills in profoundly deaf children after early cochlear implantation. Research in Developmental Disabilities, 34(6), 2008–22.CrossRefGoogle ScholarPubMed
Briec, J. (2012). Implant cochléaire et développement du langage chez les jeunes enfants sourds profonds. Unpublished doctoral thesis, Université Rennes 2.Google Scholar
Calmels, M.-N., Saliba, I., Wanna, G., Cochard, N., Fillaux, J., Deguine, O., & Fraysse, B. (2004). Speech perception and speech intelligibility in children after cochlear implantation. International Journal of Pediatric Otorhinolaryngology, 68, 347–51.CrossRefGoogle ScholarPubMed
Chin, S. B., & Pisoni, D. B. (2000). A phonological system at 2 years after cochlear implantation. Clinical Linguistics & Phonetics, 14, 5373.Google Scholar
Christensen, R. H. B. (2019). Ordinal: Regression Models for Ordinal Data. R package version 2019.4-25. Online <http://www.cran.r-project.org/package=ordinal/>..>Google Scholar
Chuang, H.-F., Yang, C.-C., Chi, L.-Y., Weismer, G., & Wang, Y.-T. (2012). Speech intelligibility, speaking rate, and vowel formant characteristics in Mandarin-speaking children with cochlear implant. International Journal of Speech-Language Pathology 14, 119–29.CrossRefGoogle ScholarPubMed
Faes, J., & Gillis, S. (2016). Word initial fricative production in children with cochlear implants and their normally hearing peers matched on lexicon size. Clinical Linguistics & Phonetics, 30(12), 959–82.CrossRefGoogle ScholarPubMed
Flipsen, P., & Colvard, L. G. (2006). Intelligibility of conversational speech produced by children with cochlear implants. Journal of Communication Disorders, 39, 93108.CrossRefGoogle ScholarPubMed
Fryauf-Bertschy, H., Tyler, R. S., Kelsay, D. M., Gantz, B. J., & Woodworth, G. G. (1997). Cochlear implant use by prelingually deafened children: the influences of age at implant and length of device use. Journal of Speech, Language, and Hearing Research, 40(1), 183–99.CrossRefGoogle ScholarPubMed
Gaul-Bouchard, M.-E., Le Normand, M.-T., & Cohen, H. (2007). Production of consonants by prelinguistically deaf children with cochlear implants. Clinical Linguistics & Phonetics, 21, 875–84.CrossRefGoogle Scholar
Geers, A. E. (2004). Speech, language, and reading skills after early cochlear implantation. Archives of Otolaryngology–Head & Neck Surgery, 130(5), 634–8.CrossRefGoogle ScholarPubMed
Geers, A. E., & Nicholas, J. G. (2013). Enduring advantages of early cochlear implantation for spoken language development. Journal of Speech, Language, and Hearing Research, 56(2), 643–55.CrossRefGoogle ScholarPubMed
Govaerts, P. J., De Beukelaer, C., Daemers, K., De Ceulaer, G., Yperman, M., Somers, T., … & Offeciers, F. E. (2002). Outcome of cochlear implantation at different ages from 0 to 6 years. Otology & Neurotology, 23(6), 885–90.CrossRefGoogle ScholarPubMed
Habib, M. G., Waltzman, S. B., Tajudeen, B., & Svirsky, M. A. (2010). Speech production intelligibility of early implanted pediatric cochlear implant users. International Journal of Pediatric Otorhinolaryngology, 74, 855–9.CrossRefGoogle ScholarPubMed
Hassanzadeh, S. (2012). Outcomes of cochlear implantation in deaf children of deaf parents: comparative study. Journal of Laryngology and Otology, 126, 989–94.CrossRefGoogle ScholarPubMed
Khwaileh, F. A., & Flipsen, P. Jr (2010). Single word and sentence intelligibility in children with cochlear implants. Clinical Linguistics & Phonetics, 24, 722–33.CrossRefGoogle ScholarPubMed
Le Normand, M.-T. (2004), Evaluation du lexique de production chez des enfants sourds profonds munis d'un implant cochléaire sur un suivi de trois ans. Rééducation orthophonique, 217, 125–40.Google Scholar
Likert, R. (1932), A technique for the measurement of attitudes. Archives of Psychology, 140, 155.Google Scholar
Majorano, M., Guidotti, L., Guerzoni, L., Murri, A., Morelli, M., Cuda, D., & Lavelli, M. (2018). Spontaneous language production of Italian children with cochlear implants and their mothers in two interactive contexts. International Journal of Language & Communication Disorders, 53(1), 7084.CrossRefGoogle ScholarPubMed
McLeod, S., Harrison, L. J., & McCormack, J. (2012). Intelligibility in Context Scale. Bathurst, NSW: Charles Sturt University. Retrieved from <http://www.csu.edu.au/research/multilingual-speech/ics> .Google ScholarPubMed
Miyamoto, R. T., Svirsky, M., Kirk, K. I., Robbins, A., Todd, S., & Riley, A. (1997). Speech intelligibility of children with multichannel cochlear implants. Annals of Otology, Rhinology & Laryngology: Supplement, 168, 35–6.Google ScholarPubMed
Montag, J. L., AuBuchon, A. M., Pisoni, D. B., & Kronenberger, W. G. (2014). Speech intelligibility in deaf children after long-term cochlear implant use. Journal of Speech, Language, and Hearing Research, 57, 2332–43.CrossRefGoogle ScholarPubMed
Moreno-Torres, I., Madrid-Cánovas, S., & Blanco-Montanez, G. (2016). Sensitive periods and language in cochlear implant users. Journal of Child Language, 43(3), 479504.CrossRefGoogle ScholarPubMed
Niparko, J., Tobey, E., Thal, D., Eisenberg, L., Wang, N.-Y., Quittner, A., & Fink, N. (2010). Spoken language development in children following cochlear implantation. JAMA, 303(15), 1498–506.CrossRefGoogle ScholarPubMed
Osberger, M. J., Robbins, A. M., Todd, S. L., & Riley, A. (1994). Speech intelligibility of children with cochlear implants, Volta Review, 96, 169–80.Google Scholar
Pisoni, D. B., Cleary, M., Geers, A. E., & Tobey, E. A. (1999). Individual differences in effectiveness of cochlear implants in children who are prelingually deaf: new process measures of performance. Volta Review, 101(3), 111–64.Google Scholar
Poissant, S. F., Peters, K. A., & Robb, M. P. (2006). Acoustic and perceptual appraisal of speech production in pediatric cochlear implant users. International Journal of Pediatric Otorhinolaryngology, 70, 1195–203.CrossRefGoogle ScholarPubMed
R Development Core Team (2019). R: A language and environment for statistical computing. R Foundation for Statistical Computing, Vienna, Austria. Online <http://www.R-project.org/>..>Google Scholar
Scarbel, L. (2012). Etude acoustique de la production de consonnes et de voyelles du français par des enfants porteurs d'un implant cochléaire. Unpublished MA Thesis, Université Stendhal Grenoble 3.Google Scholar
Svirsky, M. A., Chin, S. B., & Jester, A. (2007). The effects of age at implantation on speech intelligibility in pediatric cochlear implant users: clinical outcomes and sensitive periods. Audiological Medicine, 5(4), 293306.CrossRefGoogle Scholar
Szagun, G., & Schramm, S. A. (2016). Sources of variability in language development of children with cochlear implants: age at implantation, parental language, and early features of children's language construction. Journal of Child Language, 43(3), 505–36.CrossRefGoogle ScholarPubMed
Van Lierde, K., Vinck, B., Baudonck, N., De Vel, E., & Dhooge, I. (2005), Comparison of the overall intelligibility, articulation, resonance, and voice characteristics between children using cochlear implants and those using bilateral hearing aids: a pilot study. International Journal of Audiology, 44, 452–65.CrossRefGoogle ScholarPubMed
Wilcox, K. M., & Morris, S. (1999). Children Speech Intelligibility Measure. Orlando, FL: Psychological Corporation.Google Scholar