Word Decoding Skills in Early Elementary Children with and without Speech Sound Disorders and Developmental Dyslexia

This study aims to compare the word decoding skills, phonological awareness (PA), rapid automatized naming (RAN) skills, and letter knowledge of first graders with developmental dyslexia (DD) and those who were typically developing (TD). Eighteen children with DD and eighteen TD children, matched by nonverbal intelligence and discourse ability, participated in the study. Word decoding of Korean language-based reading assessment(<xref ref-type="bibr" rid="B27">Pae <italic>et al.,</italic> 2015</xref>) was conducted. Phoneme-grapheme correspondent words were analyzed according to whether the word has meaning, whether the syllable has a final consonant, and the position of the grapheme in the syllable. Letter knowledge asked about the names and sounds of 12 consonants and 6 vowels. The children’s PA of word, syllable, body-coda, and phoneme blending was tested. Object and letter RAN was measured in seconds. The decoding difficulty of non-words was more noticeable in the DD group than in the TD one. The TD children read the syllable initial and syllable final position with 99% correctness. Children with DD read with 80% and 82% correctness, respectively. In addition, the DD group had more difficulty in decoding words with two patchims when compared with the TD one. The DD group read only 57% of words with two patchims correctly, while the TD one read 91% correctly. There were significant differences in body-coda PA, phoneme level PA, letter RAN, object RAN, and letter-sound knowledge between the two groups. This study confirms the existence of Korean developmental dyslexics, and the urgent need for the inclusion of a Korean-specific phonics approach in the education system.

There is a growing body of literature on phonological development in Greek-speaking children, either typically developing (TD) or with speech sound disorders (SSD). In this paper, a cross-sectional longitudinal approach was used to investigate the development of speech output processing skills in TD Greek-speaking preschool-aged children. Moreover, a group of Greek-speaking children with SSD were assessed to identify potential loci of impairment in atypical development. The developmental study involved two groups: group 1 (n = 16) aged 3;0–3;5 years and group 2 (n = 22) aged 4;6–5;0 years, assessed at three assessment points six months apart. Children with SSD (n = 15) aged 5;6–6;0 years were assessed to be compared with performance of group 2 TD children (at the third assessment point). Assessment tasks included (a) a picture naming task, (b) a task of real word repetition and (c) a task of nonword repetition. A strong time effect was found in both groups of TD children in the development of speech output processing abilities. Performance accuracy was higher on tasks including real words than nonwords; children performed more accurately on repetition rather than spontaneous naming of real words; repetition accuracy on 2–3 syllables items was significantly better than on 4–5 syllables items. Children with SSD were outperformed by TD children of the same age in all assessment tasks; lexicality and word length effect were found in the clinical group. Findings from the present study may be used as a starting point to diagnose children with speech production difficulties in Greece.

Purpose: This study was conducted to analyze the acoustic differences associated with the presence of speech sound disorder (SSD) and/or cognitive ability. Methods: Medical records from 2016 to 2022 were retrospectively analyzed. The study included children aged 4 to 8 years who had undergone developmental assessments. Based on the assessment results, participants were divided into three groups: children with SSD without intellectual disability (ID), children with SSD and ID, and typically developing (TD) children. Voices were analyzed using the Multidimensional Voice Program (MDVP). Results: The average ages of children with SSD, those with SSD and ID, and those categorized as TD were 61.0±11.4, 62.3±10.7, and 64.2±9.4 months, respectively (&lt;i&gt;P&lt;/i&gt;=0.482). The proportion of children with SSD and ID who also had attention deficit hyperactivity disorder was significantly higher (53.3%) than in the other groups (&lt;i&gt;P&lt;/i&gt;=0.010). In the MDVP analysis, among values related to fundamental frequency, the number of segments computed was significantly lower in children with SSD and ID compared to the other groups (SSD, 25.0; SSD with ID, 17.0; TD, 19.0; &lt;i&gt;P&lt;/i&gt;=0.001). Similarly, the total number of pitch periods detected was significantly lower among those with both SSD and ID (SSD, 230.0; SSD with ID, 152.5; TD, 187.0; &lt;i&gt;P&lt;/i&gt;=0.001). No other parameters significantly differed across groups. Conclusion: Acoustic analysis can reflect voice changes in children with SSD and ID compared to both those with SSD and TD children. Therefore, voice analysis may serve as a supportive screening tool for patients with SSD.

Objectives: This study aimed to compare the phonological processing abilities of four groups of early elementary school children: typically developing (TD) children, children with speech sound disorders (SSD only), children with speech sound disorders and co-occurring developmental dyslexia (SSD+DD), and children with developmental dyslexia (DD).Methods: The participants included 14 TD children, 4 children with SSD only, 10 children with SSD+DD, and 13 children with DD in the first to third grades. Phonological awareness was assessed at the syllable and phoneme levels. To examine phonological memory ability, nonword repetition, sentence repetition, and picture-pointing tasks were conducted. Rapid automatized naming was assessed using number and letter stimuli.Results: Significant differences were observed among the groups in all phonological processing subcomponent tasks. No significant differences were found among the TD, SSD only, and DD groups. Additionally, the TD and SSD only groups demonstrated similar performance. The SSD+DD group exhibited significantly lower performance across all tasks, indicating severe deficits in phonological processing.Conclusion: This study demonstrated that school-age children with SSD+DD show distinct vulnerabilities in phonological processing skills compared to children with SSD only or DD. Although establishing a clear causal relationship between deficits in phonological processing skills, speech production, and reading problems is challenging, this study suggests a complex interplay between these issues.

Underlying representations are important for the development of spoken and written language. English-speaking children with speech sound disorders (SSD) have been reported to show significant difficulty with tasks tapping phonological representations. The present study describes the development of a task for the assessment of phonological representations in Greek-speaking children. The purpose of the study is twofold: to investigate the development of phonological representation in typically developing (TD) Greek-speaking children and to explore the possibility that children with SSD may have insufficiently defined phonological representations. Greek-speaking preschool aged children (4;0–5;5 years) with SSD receiving intervention (N = 20) were compared to their typically developing peers (N = 80) on their ability to complete a task of real-word auditory discrimination with picture choice. Performance differences were assessed across segmental properties and variation in word structure. TD children aged 4;0–4;5 scored lower than older TD children. A marginally significant difference in performance was found between children with SSD and TD controls. Quantitative analysis of mistakes indicated that children with SSD and TD children aged 4;0–4;5 opt for the phonological distractor. Stimuli tapping on the specification of underlying representations at a segmental level were more taxing compared to stimuli tapping on the integrity of stored word structures. Task materials and procedures used in the present study provide preliminary normative data and may be used for the assessment of Greek-speaking children with SSD. Children with SSD are at risk of developing underspecified phonological representations and therefore should receive assessment of underlying representations to guide intervention.

Pleiotropic Effects of a Chromosome 3 Locus on Speech-Sound Disorder and Reading

Purpose This study compared performance on the Syllable Repetition Task (SRT) by preschoolers with diverse speech and language abilities to identify underlying impairments in speech processes. Method Three groups of 13 children ages 4 and 5 years with (a) typically developing (TD) speech and language, (b) speech sound disorder (SSD), and (c) comorbid developmental language disorder and speech sound disorder (DLD + SSD) completed the SRT. We calculated competence, memory, encoding, and transcoding scores, as well as word-initial stress pattern and vowel accuracy. Results A 3 × 3 (Group × Syllable length) factorial multivariate analysis of covariance revealed group differences for all measures and syllable length differences for memory, transcoding, and competence. There were no interactions between group and syllable length. TD children obtained the highest scores on each measure, though children with DLD + SSD performed similarly to TD children on encoding when vocabulary was included as a covariate. Children with SSD only outperformed children with DLD + SSD on competence and transcoding, and these two groups performed similarly on memory. A separate exploratory analysis using a 3 × 3 multivariate analysis of covariance revealed that children with DLD + SSD were more likely than children in the other groups to produce weak word-initial stress and vowel errors during syllable repetition. Conclusion Children with SSD and DLD + SSD exhibit underlying phonological deficits on the SRT compared to TD children. Results support the claim that memory and encoding are deficits in SSD. In addition, transcoding deficits were identified among children with no known oromotor impairment. Therefore, more research is required to identify the relationship between SRT performance and explicit measures of phonological processing.

Purpose Speech perception requires individuals to hear and differentiate acoustic signals integral to effective communication. Measuring speech perception in children is challenging because speech perception methodology typically requires lengthy experiments that may fatigue children, resulting in limited knowledge of developmental perceptual skills. In this study, we used an adaptive tracking measure along with a wide range of acoustic stimuli to explore how adults, typically developing (TD) children, and children with speech sound disorder (SSD) perceive small acoustic differences in synthetic speech stimuli. Method Twenty-four adults, 15 TD children, and 15 children with SSD between the ages of 7;0–14;0 (years;months) were administered a newly developed perceptual assessment, the Wide-Range Acoustic Accuracy Scale, to determine the just-noticeable difference in discrimination for three separate syllable contrasts. Each syllable contrast varied along a single acoustic parameter: formant transition duration for /bɑ/–/wɑ/, F3 onset frequency for /dɑ/–/ɡɑ/, and F3–F2 distance for /rɑ/–/wɑ/. Results Findings revealed that adults and TD children did not differ in their discrimination of any syllable contrast, but adults significantly differed from SSD children on all syllable contrasts. TD children and children with SSD differed only on the /rɑ/–/wɑ/ contrast. Conclusions Children with SSD demonstrate less accurate and more variable perception skills relative to adults and TD children for /bɑ/–/wɑ/, /dɑ/–/ɡɑ/, and /rɑ/–/wɑ/ syllable contrasts. Clinical implications of the utility of the Wide-Range Acoustic Accuracy Scale are discussed.

Diagnostic validity, accuracy and inter-rater reliability of a phonological assessment for Danish-speaking children

Single-word phonological tests are widely used for detecting children at risk for Speech Sound Disorders (SSDs). However, specific conceptual and operational criteria should be evaluated to ensure that these assessments are valid and reliable and can serve as diagnostic tools. The current study aimed to investigate the validity and reliability of the screener of a phonological Greek instrument, named the Phonological Assessment for Greek (PAel) comparing the phonological performance of typically developing (TD) children and children with SSDs, aged 4 to 6 years. The participants were 20 TD children and 40 children with SSDs. All participants completed the screener of PAel, the 70-word list of the standardised Test of Phonetic and Phonological Development (TPPD), and a language test, namely the Action Picture Test. Participants who scored below the 25th percentile on the language test were excluded. Phonological analysis revealed that PAel has high content validity. The participants who had received a diagnosis of SSDs presented restricted consonant and cluster inventories and significantly lower whole-word match levels in comparison to their TD peers. The overall Spearman’s correlation coefficients between PAel and TPPD were 0.611 for TD children (p < 0.001) and 0.875 for children with SSDs (p < 0.001), indicating good criterion validity. The tool demonstrated strong test-retest reliability and inter-rater reliability with Spearman values exceeding 0.85, and Intra-class correlation coefficients over 0.90. Overall, the results suggest that PAel has satisfactory reliability and validity and can be used as an assessment tool to detect children at risk for SSDs.

Children with speech sound disorder (SSD) are at increased risk of reading difficulties due to poor phonological processing skills. However, the extent to which children with SSD demonstrate weaknesses on specific or all phonological processing tasks is not well understood. To examine the phonological processing abilities of a clinically identified sample of children with SSD, with and without reading difficulties. To determine the extent to which the proportion of children with concomitant SSD and reading difficulties exhibited weaknesses in specific areas of phonological processing, or a more general phonological deficit. Data were obtained from 157 school-aged children (Mage = 77 months, SD = 7.01) in receipt of school-based speech therapy. Approximately 25% of the sample was identified as poor readers, based on a standardized measure of word decoding. We compared the proportion of children who scored at or below 1 SD below the mean, or the bottom 16th percentile, on measures of phonological awareness, rapid automatized naming and verbal short-term memory among those identified as poor readers and good readers. Children with SSD demonstrated a range of phonological processing difficulties, particularly on the measure of verbal short-term memory. No specific skill differentiated groups of children with SSD with and without reading difficulties; however, those classified as poor readers on the word-decoding measure exhibited more widespread difficulties, even after controlling for language ability. Results support a cumulative risk model such that children with SSD and reading difficulties are likely to demonstrate generally poor phonological processing abilities. What is already known on the subject Children with SSD are at heightened risk of reading difficulties, particularly if their SSD persists into school age. However, not all children with SSD experience reading problems. Research aimed at determining which children are at the highest risk is mixed as to how best to identify which children with SSD are most likely to experience reading difficulties. What this paper adds to existing knowledge The study used a multiple case study approach to determine if performance on phonological processing skills might differentiate children with SSD who were poor readers from those who were good readers. As a group, children with SSD exhibited poor verbal short-term memory but relatively intact rapid automatized naming skills. No one phonological processing skill differentiated children who were poor readers from good readers. However, children with reading difficulties appeared to experience more general difficulties across phonological processing tasks, even after controlling for language abilities. What are the potential or actual clinical implications of this work? A single deficit (i.e., speech sound production) is not sufficient data to make a complete diagnosis or treatment decisions. Multiple sources of data, including several aspects of phonological processing, should be obtained to understand reading risk in children with SSD.

Limited research exists assessing speech perception in school-age children with speech sound disorder (SSD) and childhood apraxia of speech (CAS); despite early evidence that speech perception may lead to error-prone motor planning/programming. In this study, we examine speech perception performance in school-age children with and without speech production deficits. Speech perception was assessed using the Wide Range Acoustic Accuracy Scale to determine the just-noticeable difference in discrimination for three consonant-vowel syllable contrasts (/bɑ/-/wɑ/, /dɑ/-/gɑ/, /ɹɑ/-/wɑ/), each varying along a single acoustic parameter for seven children with CAS with rhotic errors, seven children with SSD with rhotic errors, and seven typically developing (TD) children. Findings revealed statistically significant mean differences between perceptual performance of children with CAS when compared to TD children for discrimination of /ɹɑ/-/wɑ/ contrasts. Large effect sizes were also observed for comparisons of /ɹɑ/-/wɑ/ contrasts between children with CAS, SSD, and TD peers. Additionally, large effect sizes were observed for /dɑ/-/gɑ/ contrasts between children with CAS and SSD and TD children despite nonsignificant mean differences in group performance. Overall, mean outcome scores suggest that school-age children with CAS and persistent rhotic errors demonstrated less accurate speech perception skills relative to TD children for the /ɹɑ/-/wɑ/ contrasts. However, the relatively small sample sizes per group limit the extent to which these findings may be generalized to the broader population.

Cognitive mechanisms such as short-term memory (STM) are considered to relate to speech development, yet the extent of potential limitations in children with speech sound disorders (SSD) is unknown and the nature of the relationship is debatable. The present paper explores the development of speech input and output processing skills along with STM skills in Greek-speaking children with SSD and typically developing (TD) controls. Potential relationships in performance between tasks that require phonological processing are explored. Participants with SSD aged 5;1–6;2 years (n = 30) and TD controls aged 5;1–5;11 years (n = 100) were monolingual Greek-speaking children. Speech processing skills and phonological storage were assessed as follows: (1) Input processing: a nonword auditory discrimination task was used to assess phoneme discrimination skills. Stimuli comprised 24 pairs of nonwords consisting of the same number of phonemes (2–7 phonemes) and syllables (1–3 syllables). (2) Output processing: a nonword repetition task was used to assess speech production skills. Stimuli comprised 24 nonwords of varying length (2–5 syllables). (3) STM: a task of immediate verbal recall was used to assess phonological storage. Stimuli comprised a chunk of five words; each word (2–4 syllables long) was semantically unrelated to others. The results showed that TD children outperformed children with SSD in all tasks; a significant correlation between performance in nonword repetition and immediate verbal recall was found for TD children. There were no significant correlations between performance on nonword auditory discrimination with nonword repetition or with immediate verbal recall for TD children or children with SSD.

Background: Children diagnosed with Speech Sound Disorders (SSDs) encounter difficulties in speech perception, especially when listening in the presence of background noise. Recommended protocols for auditory processing evaluation include behavioral linguistic and speech processing tests, as well as objective electrophysiological measures. The present study compared the auditory processing profiles of children with SSD and typically developing (TD) children using a battery of behavioral language and auditory tests combined with auditory evoked responses. Methods: Forty (40) parents of 7–10 years old Greek Cypriot children completed parent questionnaires related to their children’s listening; their children completed an assessment comprising language, phonology, auditory processing, and auditory evoked responses. The experimental group included 24 children with a history of SSDs; the control group consisted of 16 TD children. Results: Three factors significantly differentiated SSD from TD children: Factor 1 (auditory processing screening), Factor 5 (phonological awareness), and Factor 13 (Auditory Brainstem Response—ABR wave V latency). Among these, Factor 1 consistently predicted SSD classification both independently and in combined models, indicating strong ecological and diagnostic relevance. This predictive power suggests real-world listening behaviors are central to SSD differentiation. The significant correlation between Factor 5 and Factor 13 may suggest an interaction between auditory processing at the brainstem level and higher-order phonological manipulation. Conclusions: This research underscores the diagnostic significance of integrating behavioral and physiological metrics through dimensional and predictive methodologies. Factor 1, which focuses on authentic listening environments, was identified as the strongest predictor. These results advocate for the inclusion of ecologically valid listening items in the screening for APD. Poor discrimination of speech in noise imposes discrepancies between incoming auditory information and retained phonological representations, which disrupts the implicit processing mechanisms that align auditory input with phonological representations stored in memory. Speech and language pathologists can incorporate pertinent auditory processing assessment findings to identify potential language-processing challenges and formulate more effective therapeutic intervention strategies.

Introduction: Japanese is unique, as it features two distinct writing systems that share the same sound and meaning: syllabic Hiragana and logographic Kanji scripts. Acquired reading difficulties in Hiragana and Kanji have been examined in older patients with brain lesions. However, the precise mechanisms underlying deficits in developmental dyslexia (DD) remain unclear.Materials and Methods: The neural signatures of Japanese children with DD were examined by using resting-state functional magnetic resonance imaging. We examined 22 dyslexic and 46 typically developing (TD) children, aged 7–14 years.Results: Reading performance in each writing system was correlated with neural connectivity in TD children. In contrast, in children with DD, weak associations between neural connectivity and reading performance were observed. In TD children, Hiragana-reading fluency was positively correlated with the left fusiform gyrus network. No significant correlations between Hiragana fluency and neural connectivity were observed in children with DD. Correspondingly, there were fewer correlations between Kanji accuracy and strength of reading-related connectivity in children with DD, whereas positive correlations with the bilateral fronto-parietal network and negative correlations with the left fusiform network were found in TD children.Discussion: These data suggest that positive and negative coupling with neural connectivity is associated with developing Japanese reading skills. Further, different neural connectivity correlations between Hiragana fluency and Kanji accuracy were detected in TD children but less in children with DD.Conclusion: The two writing systems may exert differential effects and deficits on reading in healthy children and in children with DD, respectively.Impact statementThis is the first study of the precise neurobiological characteristics of dyslexia in Japanese children. Because the Japanese language uniquely features two writing systems and there is a low prevalence of dyslexia among Japanese children, our results from an examination of this population provided unique insights into the neural bases of dyslexia. Using resting-state functional magnetic resonance imaging, we determined possible networks that may be implicated in the reading deficits present in these and other children who suffer from dyslexia.