Articulatory Patterns in Children who use Cochlear Implants: An Ultrasound Measure of Velar Stop Production in Bilingual Speakers

Coarticulation occurs in running speech when one speech sound or phoneme overlaps with another. It can be considered a result of the way we sequence and organize our articulators to efficiently produce consecutive consonants and vowels in fluent speech. Previous research has suggested that measures...

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Bibliographic Details
Main Author: Javier, Katherine
Format: Others
Published: Scholar Commons 2018
Subjects:
Online Access:https://scholarcommons.usf.edu/etd/7309
https://scholarcommons.usf.edu/cgi/viewcontent.cgi?article=8506&context=etd
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Summary:Coarticulation occurs in running speech when one speech sound or phoneme overlaps with another. It can be considered a result of the way we sequence and organize our articulators to efficiently produce consecutive consonants and vowels in fluent speech. Previous research has suggested that measures of coarticulation can provide insight into the maturity of the motor speech planning system (Barbier, Perrier, Ménard, Payan, Tiede, & Perkell, 2013; Zharkova & Hewlett, 2009; Zharkova, Hewlett, & Hardcastle, 2011). Speech stability has also been suggested as an indicator of motor speech maturity in previous research using ultrasound imaging of velar-vowel targets (Frisch, Maxfield, & Belmont, 2016). This study extends research by Frisch, Maxfield, & Belmont (2016) to investigate patterns of velar-vowel coarticulation and speech stability in bilingual children who wear cochlear implants. Ultrasound and acoustic data were recorded from one English-Spanish bilingual participant (P1) who wears bilateral cochlear implants, one English-Spanish bilingual control child (P2) with no hearing impairment, and one English-Spanish bilingual adult speaker. Measures of velar-vowel coarticulation and speech stability across three productions of English and Spanish words were recorded and analyzed following procedures of Wodzinski and Frisch (2006). The participants were asked to produce three repetitions of fifteen English and fifteen Spanish target words starting with a /k/+ vowel sequence. Ultrasound imaging was used to record and trace tongue movement at the point of maximum velar closure. Data was compared between English and Spanish words, across participants, and between repetitions of the same word. In comparing English and Spanish words, child participants (P1 and P2) demonstrated increased coarticulation during Spanish productions. All participants showed decreased stability in Spanish productions when compared to English. Adult participant (P3) showed greater overall stability in productions and consistent coarticulation across both languages. Measures of coarticulation and overall stability were relatively equal across P1 and P2, while P3 showed greater and more stable coarticulation across both languages. Preliminary results support findings in previous research suggesting that anticipatory coarticulation and speech stability could be used as an index for assessing speech motor planning in bilingual and clinical populations (Barbier, Perrier, Ménard, Payan, Tiede, & Perkell, 2013; Frisch, Allen, Betancourt, & Maxfield, 2016; Frisch, Maxfield, & Belmont, 2016; Frisch & Wodzinski, 2014; Zharkova & Hewlett, 2009; Zharkova, Hewlett, & Hardcastle, 2011). Results additionally indicate that a young cochlear implant user who receives early intervention and is learning two languages can develop commensurate motor speech planning systems to that of a typical bilingual peer and that patterns of coarticulation and stability may be different in English and Spanish contexts.