ABSTRACT
The purpose of this study was to investigate the hypothesis that individuals with dyslexia and individuals with childhood apraxia of speech share an underlying persisting deficit in processing sequential information. Levels of impairment (sensory encoding, memory, retrieval, and motor planning/programming) were also investigated. Participants were 22 adults with dyslexia, 10 adults with a probable history of childhood apraxia of speech (phCAS), and 22 typical controls. All participants completed nonword repetition, multisyllabic real word repetition, and nonword decoding tasks. Using phonological process analysis, errors were classified as sequence or substitution errors. Adults with dyslexia and adults with phCAS showed evidence of persisting nonword repetition deficits. In all three tasks, the adults in the two disorder groups produced more errors of both classes than the controls, but disproportionally more sequencing than substitution errors during the nonword repetition task. During the real word repetition task, the phCAS produced the most sequencing errors, whereas during the nonword decoding task, the dyslexia group produced the most sequencing errors. Performance during multisyllabic motor speech tasks, relative to monosyllabic conditions, was correlated with the sequencing error component during nonword repetition. The results provide evidence for a shared persisting sequential processing deficit in the dyslexia and phCAS groups during linguistic and motor speech tasks. Evidence for impairments in sensory encoding, short-term memory, and motor planning/programming was found in both disorder groups. Future studies should investigate clinical applications regarding preventative and targeted interventions towards cross-modal treatment effects.
Declaration of Interest
The authors report no conflicts of interest.
Acknowledgments
The authors wish to thank all participants for their time and efforts. The following funding sources are gratefully acknowledged: American Speech-Language-Hearing Foundation New Century Scholars Research Grant (B. Peter), NIDCD T32DC00033 (B. Peter), NIDCD R03DC010886 (B. Peter), University of Washington Royalty Research Fund (B. Peter), and Arizona State University New Faculty Startup Fund (B. Peter). Special thanks to the following undergraduate and graduate students for their assistance with data collection and analysis: Linda Eng, Natalie Heldenbrand, Hannah Holtz, Andrea Kretchmer, Jennifer Philp, Whitney Stine, Mckayla Tully, and Christen Webb.