The Handbook of Language and Speech Disorders. Группа авторов. Читать онлайн. Newlib. NEWLIB.NET

Автор: Группа авторов
Издательство: John Wiley & Sons Limited
Серия:
Жанр произведения: Языкознание
Год издания: 0
isbn: 9781119606994
Скачать книгу
M., Christensen, J. A., Kulkarni, A. M., Deroche, M. L., Damm, S. A., Bosen, A. K., … Limb, C. J. (2016). Voice emotion communication by listeners with cochlear implants. Poster 740 presented at 39th Annual Midwinter Meeting of the Association for Research in Otolaryngology, February 20–24, 2016, San Diego, California.

      11 Chatterjee, M., Kulkarni, A. M., Siddiqui, R. M., Christensen, J. A., Hozan, M., Sis, J. L., & Damm, S. A. (2019). Acoustics of emotional prosody produced by prelingually deaf children with cochlear implants. Frontiers in Psychology, 10, 2190.

      12 Chin, S. B., Bergeson, T. R., & Phan, J. (2012). Speech intelligibility and prosody production in children with cochlear implants. Journal of Communication Disorders, 45(5), 355–366.

      13 Colletti, L., Shannon, R., & Colletti, V. (2012). Auditory brainstem implants for neurofibromatosis type 2. Current Opinion in Otolaryngology & Head and Neck Surgery, 20(5), 353–357.

      14 Cosetti, M. K., & Waltzman, S. B. (2012). Outcomes in cochlear implantation: Variables affecting performance in adults and children. Otolaryngologic Clinics of North America, 45(1), 155–171.

      15 Cupples, L., Ching, T. Y., Button, L., Seeto, M., Zhang, V., Whitfield, J., … Marnane, V. (2018). Spoken language and everyday functioning in 5‐year‐old children using hearing aids or cochlear implants. International Journal of Audiology, 57(suppl. 2), S55–S69.

      16 Cysneiros, H. R. S., Leal, M. d. C., Lucena, J. A., & Muniz, L. F. (2016). Relationship between auditory perception and vocal production in cochlear implantees: A systematic review. CoDAS, 28(5). doi:10.1590/2317‐1782/20162015165

      17 Dawes, P., Fortnum, H., Moore, D. R., Emsley, R., Norman, P., Cruickshanks, K., … Munro, K. (2014). Hearing in middle age: A population snapshot of 40‐ to 69‐year olds in the United Kingdom. Ear and Hearing, 35(3), 44–51.

      18 de Hoog, B. E., Langereis, M. C., van Weerdenburg, M., Keuning, J., Knoors, H., & Verhoeven, L. (2016). Auditory and verbal memory predictors of spoken language skills in children with cochlear implants. Research in Developmental Disabilities, 57, 112–124.

      19 Evans, M. K., & Deliyski, D. D. (2007). Acoustic voice analysis of prelingually deaf adults before and after cochlear implantation. Journal of Voice, 21(6), 669–682.

      20 Fortunato‐Tavares, T., Befi‐Lopes, D., Bento, R. F., & de Andrade, C. R. F. (2012). Children with cochlear implants: Communication skills and quality of life. Brazilian Journal of Otorhinolaryngology, 78(1), 15–25.

      21 Freeman, V., Pisoni, D. B., Kronenberger, W. G., & Castellanos, I. (2017). Speech intelligibility and psychosocial functioning in deaf children and teens with cochlear implants. The Journal of Deaf Studies and Deaf Education, 22(3), 278–289.

      22 Friesen, L. M., Shannon, R. V., Baskent, D., & Wang, X. (2001). Speech recognition in noise as a function of the number of spectral channels: Comparison of acoustic hearing and cochlear implants. Journal of the Acoustical Society of America, 110(2), 1150–1163.

      23 Gilbers, S., Fuller, C., Gilbers, D., Broersma, M., Goudbeek, M., Free, R., & Baskent, D. (2015). Normal‐hearing listeners’ and cochlear implant users’ perception of pitch cues in emotional speech. Iperception, 6(5). doi:10.1177/0301006615599139

      24 Gillis, S. (2018). Speech and language in congenitally deaf children with a cochlear implant. In A. Bar‐On & D. Ravid (Eds.), Handbook of communication disorders: Theoretical, empirical, and applied linguistic perspectives (pp. 765–792). Berlin, Germany: De Gruyter.

      25 Goffi‐Gomez, M. V. S., Magalhães, A. T., Brito Neto, R., Tsuji, R. K., de Gomes, M., Q. T., & Bento, R. F. (2012). Auditory brainstem implant outcomes and MAP parameters: Report of experiences in adults and children. International Journal of Pediatric Otorhinolaryngology, 76(2), 257–264.

      26 Göthberg, H., Rosenhall, U., Tengstrand, T., Rydberg Sterner, T., Wetterberg, H., Zettergren, A., … Sadeghi, A. (2019). Cross‐sectional assessment of hearing acuity of an unscreened 85‐year‐old cohort—Including a 10‐year longitudinal study of a sub‐sample. Hearing Research, 382, 107797.

      27 Guenther, F. H. (2006). Cortical interactions underlying the production of speech sounds. Journal of Communication Disorders, 39(5), 350–365.

      28 Hirsh, I. J., Davis, H., Silverman, S. R., Reynolds, E. G., Eldert, E., & Benson, R. W. (1952). Development of materials for speech audiometry. Journal of Speech and Hearing Disorders, 17(3), 321–337.

      29 Hoffmann‐Dilloway, E. (2016). Signing and belonging in Nepal. Washington, DC: Gallaudet University Press.

      30 Holden, L. K., Finley, C. C., Firszt, J. B., Holden, T. A., Brenner, C., Potts, L. G., … Heydebrand, G. (2013). Factors affecting open‐set word recognition in adults with cochlear implants. Ear and Hearing, 34(3), 342.

      31 Holt, C. M., Yuen, I., & Demuth, K. (2017). Discourse strategies and the production of prosody by prelingually deaf adolescent cochlear implant users. Ear and Hearing, 38(2), e101–e108.

      32 Hu, B. (2012). Noise‐induced structural damage to the cochlea. In C. G. Le Prell, D. Henderson, R. R. Fay, & A. N. Popper (Eds.), Noise‐induced hearing loss: Scientific advances (pp. 57–86). New York, NY: Springer.

      33 Huber, M., & Havas, C. (2019). Restricted speech recognition in noise and quality of life of hearing‐impaired children and adolescents with cochlear implants—Need for studies addressing this topic with valid pediatric quality of life instruments. Frontiers in Psychology, 10, 2085.

      34 Hyde, M., & Punch, R. (2011). The modes of communication used by children with cochlear implants and the role of sign in their lives. American Annals of the Deaf, 155(5), 535–549.

      35 Jiam, N. T., Caldwell, M., Deroche, M. L., Chatterjee, M., & Limb, C. J. (2017). Voice emotion perception and production in cochlear implant users. Hearing Research, 352, 30–39.

      36 Kalathottukaren, R. T., Purdy, S. C., & Ballard, E. (2015). Prosody perception and musical pitch discrimination in adults using cochlear implants. International Journal of Audiology, 54(7), 1–9.

      37 Kong, Y.‐Y., & Carlyon, R. P. (2010). Temporal pitch perception at high rates in cochlear implants. The Journal of the Acoustical Society of America, 127(5), 3114–3123.

      38 Kort, W., Compaan, E., Schittekatte, M., & Dekker, P. (2010). Clinical evaluation of language fundamentals Nederlandse versie Handleiding (CELF 4, Dutch edition, manual). Amsterdam, The Netherlands: Pearson.

      39 Kujawa, S. G., & Liberman, M. C. (2009). Adding insult to injury: Cochlear nerve degeneration after “temporary” noise‐induced hearing loss. The Journal of Neuroscience: The Official Journal of the Society for Neuroscience, 29(45), 14077–14085.

      40 Lazard, D., Giraud, A.‐L., Gnansia, D., Meyer, B., & Sterkers, O. (2012). Understanding the deafened brain: Implications for cochlear implant rehabilitation. European Annals of Otorhinolaryngology, Head and Neck Diseases, 129(2), 98–103.

      41 Lazard, D. S., Vincent, C., Venail, F., Van de Heyning, P., Truy, E., Sterkers, O., … Blamey, P. J. (2012). Pre‐, per‐ and postoperative factors affecting performance of postlinguistically deaf adults using cochlear implants: A new conceptual model over time. PLoS One, 7(11), e48739.

      42 Lee, Y., & Sim, H. (2020). Prosodic control in imitative speech of preschool‐age children with cochlear implants. Clinical Linguistics & Phonetics, 34(6), 536–553.

      43 Lehiste, I. (1970). Suprasegmentals. Cambridge, MA: MIT Press.

      44 Li, Y.‐L., Lin, Y.‐H., Yang, H.‐M., Chen, Y.‐J., & Wu, J.‐L. (2018). Tone production and perception and intelligibility of produced speech in Mandarin‐speaking cochlear implanted children. International Journal of Audiology, 57(2), 135–142.

      45 Liberman, M. C. (2017). Noise‐induced and age‐related hearing loss: New perspectives and potential therapies. F1000Research, 6, 927.

      46 Lin, F. R., Yaffe, K., Xia, J., Xue, Q.‐L., Harris, T. B., Purchase‐Helzner, E., … Simonsick, E. M. (2013). Hearing loss and cognitive decline among older