CI users’ encoding, storage, and retrieval (AuBuchon et al., 2019)
datasetposted on 2019-03-21, 19:00 authored by Angela M. AuBuchon, David B. Pisoni, William G. Kronenberger
Purpose: The current study adopts a systematic approach to the examination of working memory components in pediatric cochlear implant (CI) users by separately assessing contributions of encoding, storage, and retrieval.
Method: Forty-nine long-term CI users and 56 typically hearing controls completed forward and backward span tasks with 3 stimulus sets: visually presented digits, pictures of concrete nouns, and novel symbols. In addition, measures associated with each memory stage were collected: Rapid digit naming provided an estimate of phonological recoding speed, nonword repetition assessed the robustness of representations within phonological storage, and vocabulary knowledge (as measured by the Peabody Picture Vocabulary Test; Dunn & Dunn, 1997) estimated redintegration abilities during retrieval.
Results: Linear mixed modeling revealed that digit naming speed and vocabulary knowledge were consistently related to short-term and working memory span in both CI users and typically hearing controls. However, nonword repetition only contributed to the model for short-term memory.
Conclusions: Nonword repetition, an index of phonological storage, explained little of the individual variability in working memory differences between CI users and typically hearing peers. On the other hand, individual differences in encoding and retrieval explained a significant amount of outcome variability in both short-term and working memory tasks. Differences between CI users and typically hearing peers in working memory therefore appear to reflect process components of encoding and retrieval and not simply differences in memory storage.
Supplemental Material S1. Pairwise correlations for the six span tasks and tasks estimating encoding (rapid digit naming), storage (nonword repetition), and retrieval/redintegration (PPVT).
Supplemental Material S2. Linear mixed models with hearing status in place of nonword repetition for forward span.
Supplemental Material S3. Linear mixed models with hearing history.
AuBuchon, A. M., Pisoni, D. B., Kronenberger, W. G. (2019). Evaluating pediatric cochlear implant users' encoding, storage, and retrieval strategies in verbal working memory. Journal of Speech, Language, and Hearing Research, 62, 1016–1032. https://doi.org/10.1044/2018_JSLHR-H-18-0201
This work was supported by National Institute on Deafness and Other Communication Disorders Grants R01DC000111, R01DC009581, R01DC015257, and T32DC000012, awarded to David Pisoni.
hearingimpairmentaudiologycochlear implantpediatricchildrenencodingstorageretrievalstrategiesverbalworking memorysystematicassessmentlong-termtypically developingforward spanbackward spandigitsvisualnounssymbolsnovelmemorystagerapiddigit namingphonologicalspeedrecodingnonwordrepetitionrepresentationsvocabularyknowledgePeabody Picture Vocabulary TestPPVTabilityshort-termspanvariabilityindividualCIoutcomedifferencesredintegrationMedical Devices