Voice and pronunciation of cochlear implant speakers

Horga, Damir; Liker, Marko

doi:10.1080/02699200400027015

Cited by 66 publications

(38 citation statements)

References 9 publications

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“…Croatian, like Spanish, has prevoiced VOT durations for voiced stops and short-lag durations for voiceless stops (Smiljanic & Bradlow, 2008). Horga and Liker (2006) compared samples of acoustic measures, including VOT of /t/ and /d/, of 10 monolingual Croatian children with CIs with age-matched peers with hearing aids and typically developing children with NH. The results indicated that children with CIs and those with hearing aids did not contrast the VOT values of /t/ and /d/, and although the VOT durations were not significantly different between the two groups of children with hearing loss, the authors reported that pronunciation and voice quality of the CI users were perceived as better than those of the children who used hearing aids.…”

Section: Voiced and Voiceless Stop Production By CI Usersmentioning

confidence: 99%

Initial Stop Voicing in Bilingual Children With Cochlear Implants and Their Typically Developing Peers With Normal Hearing

Bunta

Goodin-Mayeda

Procter

et al. 2016

J Speech Lang Hear Res

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Purpose: This study focuses on stop voicing differentiation in bilingual children with normal hearing (NH) and their bilingual peers with hearing loss who use cochlear implants (CIs). Method: Twenty-two bilingual children participated in our study (11 with NH, M age = 5;1 [years;months], and 11 with CIs, M hearing age = 5;1). The groups were matched on hearing age and a range of demographic variables. Single-word picture elicitation was used with word-initial singleton stop consonants. Repeated measures analyses of variance with three within-subject factors (language, stop voicing, and stop place of articulation) and one between-subjects factor (NH vs. CI user) were conducted with voice onset time and percentage of prevoiced stops as dependent variables. Results: Main effects were statistically significant for language, stop voicing, and stop place of articulation on both voice onset time and prevoicing. There were no significant main effects for NH versus CI groups. Both children with NH and with CIs differentiated stop voicing in their languages and by stop place of articulation. Stop voicing differentiation was commensurate across the groups of children with NH versus CIs. Conclusions: Stop voicing differentiation is accomplished in a similar fashion by bilingual children with NH and CIs, and both groups differentiate stop voicing in a languagespecific fashion.

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Section: Voiced and Voiceless Stop Production By CI Usersmentioning

confidence: 99%

Initial Stop Voicing in Bilingual Children With Cochlear Implants and Their Typically Developing Peers With Normal Hearing

Bunta

Goodin-Mayeda

Procter

et al. 2016

J Speech Lang Hear Res

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“…Levels of spoken language skill previously achieved only occasionally in children who were profoundly deaf and used hearing aids have now become the norm, with higher levels seen in the areas of speech perception (Eisenberg et al, 2006), speech production (Chin, Tsai & Gao, 2003;Flipsen & Colvard, 2006;Horga & Liker, 2006;Tobey, Geers, Brenner, Altuna, & Gabbert, 2003), language (Moog, 2002;Nicholas & Geers, 2006a;2006b), and reading (Geers, 2003;Spencer, Tomblin & Gantz, 1998). Many educators and clinicians working with children who have severe-profound hearing loss are revising educational strategies and expectations based upon the general success facilitated by cochlear implant (CI) devices.…”

Section: Introductionmentioning

confidence: 99%

Expected Test Scores for Preschoolers With a Cochlear Implant Who Use Spoken Language

Nicholas

Geers

2008

Am J Speech Lang Pathol

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Purpose-The major purpose of this study was to provide information about expected spoken language skills of preschool-aged children who are deaf and who use a cochlear implant. A goal was to provide "benchmarks" against which those skills may be compared, for a given age at implantation. We also examined whether parent-completed checklists of children's language were correlated with results of standardized language tests and whether scores increased linearly with decreasing age-ofimplantation and increasing duration of cochlear implant use.Method-Participants were a nation-wide sample of 76 children who were deaf and orally-educated and who received an implant by 38 months of age. Formal language tests were administered at age 4.5 years. The MacArthur-Bates Communicative Development Inventory (MBCDI) was completed by parents when children were ages 3.5 and 4.5 years.Results-Based on regression analyses, expected test scores for each age at implant are provided for two commonly administered language tests at 4.5 years of age and MBCDI subscale scores at 3.5 and 4.5 years. Concurrent test scores were significantly correlated on all measures. A linear relation was found which predicted increasing test scores with younger ages at implantation for all scales administered.Conclusions-While the expected scores reported here should not be considered as normative data, they are benchmarks which may be useful for evaluating spoken language progress of children with cochlear implants in enrolled in spoken language-based programs.Published literature shows that children who are profoundly deaf and who receive a cochlear implant often achieve spoken language skills much closer to the skills of their hearing peers than previously possible. Levels of spoken language skill previously achieved only occasionally in children who were profoundly deaf and used hearing aids have now become the norm, with higher levels seen in the areas of speech perception (Eisenberg et al., 2006), speech production (Chin, Tsai & Gao, 2003;Flipsen & Colvard, 2006;Horga & Liker, 2006;Tobey, Geers, Brenner, Altuna, & Gabbert, 2003), language (Moog, 2002;Nicholas & Geers, 2006a;2006b), and reading (Geers, 2003;Spencer, Tomblin & Gantz, 1998). Many educators and clinicians working with children who have severe-profound hearing loss are revising educational strategies and expectations based upon the general success facilitated by cochlear implant (CI) devices. Sources of VariabilityPrior to surgery, parents often ask clinicians to describe the spoken language proficiency that may be expected following cochlear implantation. During post-implant habilitation, they may NIH Public Access NIH-PA Author ManuscriptNIH-PA Author Manuscript NIH-PA Author Manuscript ask whether their child is making expected progress in relation to other children with CIs. Despite the impressive skills achieved by many children with CIs, variability in progress remains a significant concern. The range of observed outcomes adds uncertainty to projecting future progress for ...

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“…The duration of deafness therefore might be also of importance for speech production outcome according to the DIVA theory [18]. In the present study on adult CI users' speech outcomes, we therefore focused on the role of duration of deafness and some other factors.…”

Section: Discussionmentioning

confidence: 99%

“…This comes along with the variable results on other aspects of speech such as altered nasality, voice, formants, and prosody as described by some authors concerning speech outcomes after cochlear implantation [12,16,17]. Horga and Liker [18] compared several variables such as vowel formant space, voice versus voiceless differences, closure duration and voice onset time, word accent production, sentence stress production, voice quality, and pronunciation quality in three groups of 10 subjects each: children with a CI, children with profound deafness who used traditional hearing aids, and normal-hearing subjects. The results revealed that most CI users performed worse than people with normal hearing, but better than deaf subjects with hearing aids.…”

Section: Introductionmentioning

confidence: 99%

Speech Production Quality of Cochlear Implant Users with Respect to Duration and Onset of Hearing Loss

Ruff¹,

Nöth

Müller³

et al. 2017

ORL

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Purpose: To assess whether postlingual onset and shorter duration of deafness before cochlear implant (CI) provision predict higher speech intelligibility results of CI users. Methods: For an objective judgement of speech intelligibility, we used an automatic speech recognition system computing the word recognition rate (WR) of 50 adult CI users and 50 age-matched control individuals. All subjects were recorded reading a standardized text. Subjects were divided into three groups: pre- or perilingual deafness (A), both >2 years before implantation, postlingual deafness <2 years before implantation (B), or postlingual deafness >2 years before implantation (C). Results: CI users with short duration of postlingual deafness (B) had a significantly higher WR (median 74%) than CI users with long duration of postlingual deafness (C; 68%, p < 0.001) or pre-/perilingual onset (A; 56%, p < 0.001). Compared to their control groups only CI users with short duration of postlingual deafness reached similar WR, others showed significantly lower WR. Other factors such as hearing loss onset, duration of CI use, or duration of amplified hearing showed no consistent influence on speech quality. Conclusions: The speech production quality of adult CI users shows dependencies on the onset and duration of deafness. These features need to be considered while planning rehabilitation.

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Voice and pronunciation of cochlear implant speakers

Cited by 66 publications

References 9 publications

Initial Stop Voicing in Bilingual Children With Cochlear Implants and Their Typically Developing Peers With Normal Hearing

Initial Stop Voicing in Bilingual Children With Cochlear Implants and Their Typically Developing Peers With Normal Hearing

Expected Test Scores for Preschoolers With a Cochlear Implant Who Use Spoken Language

Speech Production Quality of Cochlear Implant Users with Respect to Duration and Onset of Hearing Loss

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