Browsing by Author "Montgomery, Caitlin J."
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Item Functional Hearing Quality in Prelingually Deaf School-Age Children and Adolescents with Cochlear Implants(Taylor & Francis, 2021) Kronenberger, William G.; Bozell, Hannah; Henning, Shirley C.; Montgomery, Caitlin J.; Ditmars, Allison M.; Pisoni, David B.; Psychiatry, School of MedicineObjective: This study investigated differences in functional hearing quality between youth with cochlear implants (CIs) and normal hearing (NH) peers, as well as associations between functional hearing quality and audiological measures, speech perception, language and executive functioning (EF). Design: Youth with CIs and NH peers completed measures of audiological functioning, speech perception, language and EF. Parents completed the Quality of Hearing Scale (QHS), a questionnaire measure of functional hearing quality. Study sample: Participants were 43 prelingually-deaf, early-implanted, long-term CI users and 43 NH peers aged 7-17 years. Results: Compared to NH peers, youth with CIs showed poorer functional hearing quality on the QHS Speech, Localization, and Sounds subscales and more hearing effort on the QHS Effort subscale. QHS scores did not correlate significantly with audiological/hearing history measures but were significantly correlated with most speech perception, language and EF scores in the CI sample. In the NH sample, QHS scores were uncorrelated with speech perception and language and were inconsistently correlated with EF. Conclusions: The QHS is a valid measure of functional hearing quality that is distinct from office-based audiometric or hearing history measures. Functional hearing outcomes are associated with speech-language and EF outcomes in CI users.Item Remote Assessment of Verbal Memory in Youth With Cochlear Implants During the COVID-19 Pandemic(American Speech-Language-Hearing Association, 2021) Kronenberger, William G.; Montgomery, Caitlin J.; Henning, Shirley C.; Ditmars, Allison; Johnson, Courtney A.; Herbert, Carolyn J.; Pisoni, David B.; Otolaryngology -- Head and Neck Surgery, School of MedicinePurpose: Youth with cochlear implants (CIs) are at risk for delays in verbal short-term memory (STM)/working memory (WM), which adversely affect language, neurocognitive, and behavioral outcomes. Assessment of verbal STM/WM is critical for identifying and addressing these delays, but standard assessment procedures require face-to-face (FTF) administration. The purpose of this study was to determine the feasibility and validity of remote testing methods (teleassessment) of verbal STM/WM in youth with CIs as a method of addressing COVID-19–related restrictions on FTF test administration. Method: Tests of verbal STM/WM for nonwords, digit spans, letter–number sequences, sentences, and stories were individually administered by speech-language pathologists over a teleassessment platform to 28 youth (aged 9–22 years) with CIs and 36 same-aged normal-hearing peers. Examiners, parents, and participants completed quality and satisfaction ratings with the teleassessment procedure. Teleassessment scores were compared to results of tests obtained at FTF visits an average of 1.6 years earlier. Results: Quality and satisfaction ratings for teleassessment were high and in almost all cases did not differ between the CI and normal-hearing samples. Youth with CIs scored lower than normal-hearing peers on measures of verbal STM/WM, and scores for digit span and letter–number sequencing did not differbetween teleassessment and FTF methods. Correlations across teleassessment and FTF visits were strong for digit span, letter–number sequencing, and sentence memory, but were more modest for nonword repetition. Conclusion: With some caveats, teleassessment of verbal STM/WM was feasible and valid for youth with CIs.Item Speed of Information Processing and Verbal Working Memory in Children and Adolescents With Cochlear Implants(Wolters Kluwer, 2023) Herran, Reid M.; Montgomery, Caitlin J.; Henning, Shirley C.; Herbert, Carolyn J.; Ditmars, Allison M.; Yates, Catherine J.; Pisoni, David B.; Kronenberger, William G.; Otolaryngology -- Head and Neck Surgery, School of MedicineBackground: Verbal working memory delays are found in many deaf children with cochlear implants compared with normal-hearing peers, but the factors contributing to these delays are not well understood. This study investigated differences between cochlear implant users and normal-hearing peers in memory scanning speed during a challenging verbal working memory task. To better understand variability in verbal working memory capacity within each sample, associations between memory scanning speed, speech recognition, and language were also investigated. Methods: Twenty-five prelingually deaf, early implanted children (age, 8-17 yr) with cochlear implants and 25 normal-hearing peers completed the Wechsler Intelligence Scale for Children, Fifth Edition, Letter-Number Sequencing (LNS) working memory task. Timing measures were made for response latency and average pause duration between letters/numbers recalled during the task. Participants also completed measures of speech recognition, vocabulary, and language comprehension. Results: Children with cochlear implants had longer pause durations than normal-hearing peers during three-span LNS sequences, but the groups did not differ in response latencies or in pause durations during two-span LNS sequences. In the sample of cochlear implant users, poorer speech recognition was correlated with longer pause durations during two-span sequences, whereas poorer vocabulary and weaker language comprehension were correlated with longer response latencies during two-span sequences. Response latencies and pause durations were unrelated to language in the normal-hearing sample. Conclusion: Children with cochlear implants have slower verbal working memory scanning speed than children with normal hearing. More robust phonological-lexical representations of language in memory may facilitate faster memory scanning speed and better working memory in cochlear implant users.Item Verbal Working Memory Error Patterns and Speech-Language Outcomes in Youth With Cochlear Implants(American Speech-Language-Hearing Association, 2021) Romano, Daniel R.; Kronenberger, William G.; Henning, Shirley C.; Montgomery, Caitlin J.; Ditmars, Allison M.; Johnson, Courtney A.; Bozell, Hannah D.; Yates, Adeline D.; Pisoni, David B.; Otolaryngology -- Head and Neck Surgery, School of MedicinePurpose: Verbal working memory (VWM) delays are commonly found in prelingually deaf youth with cochlear implants (CIs), albeit with considerable interindividual variability. However, little is known about the neurocognitive information-processing mechanisms underlying these delays and how these mechanisms relate to spoken language outcomes. The goal of this study was to use error analysis of the letter-number sequencing (LNS) task to test the hypothesis that VWM delays in CI users are due, in part, to fragile, underspecified phonological representations in short-term memory. Method: Fifty-one CI users aged 7-22 years and 53 normal hearing (NH) peers completed a battery of speech, language, and neurocognitive tests. LNS raw scores and error profiles were compared between samples, and a hierarchical regression model was used to test for associations with measures of speech, language, and hearing. Results: Youth with CIs scored lower on the LNS test than NH peers and committed a significantly higher number of errors involving phonological confusions (recalling an incorrect letter/digit in place of a phonologically similar one). More phonological errors were associated with poorer performance on measures of nonword repetition and following spoken directions but not with hearing quality. Conclusions: Study findings support the hypothesis that poorer VWM in deaf children with CIs is due, in part, to fragile, underspecified phonological representations in short-term/working memory, which underlie spoken language delays. Programs aimed at strengthening phonological representations may improve VWM and spoken language outcomes in CI users.