search
Back to results

Neural Indices of Intervention Outcomes in Children With Speech Sound Disorders

Primary Purpose

Speech Sound Disorder

Status
Active
Phase
Not Applicable
Locations
United States
Study Type
Interventional
Intervention
Speech Production Treatment.
Speech Production + Speech Perception Treatment.
Sponsored by
Idaho State University
About
Eligibility
Locations
Arms
Outcomes
Full info

About this trial

This is an interventional treatment trial for Speech Sound Disorder focused on measuring Children, Phonology, EEG, ERP, ABR, FFR

Eligibility Criteria

4 Years - 6 Years (Child)All SexesAccepts Healthy Volunteers

Inclusion criteria (all children):

  • Between the ages of 4;0 and 6;0 years
  • English monolingual speakers
  • Typical hearing abilities
  • Typical overall development
  • No apparent organic anomalies of the speech mechanism
  • No global cognitive delays
  • No receptive language impairments

Inclusion criteria (children with speech sound disorders):

  • Speech production abilities below the 10th percentile
  • Exclude a minimum of 4 English consonants from sound repertoire
  • No prior speech and/or language intervention services
  • Prior diagnosis of speech sound disorder (SSD)

Inclusion criteria (typically developing children):

- All speech and language measures in the typical range

Exclusion Criteria:

  • Speaking a language other than (or in addition to) English
  • Being above the age of 6 years or under 4 years

Sites / Locations

  • Idaho State University - Meridian

Arms of the Study

Arm 1

Arm 2

Arm Type

Experimental

Experimental

Arm Label

Speech Treatment

Speech Treatment & Perception

Arm Description

Half of the children will be assigned to the traditional speech treatment program which will focus on how to produce sounds in academic vocabulary words.

Half of the children will be assigned to the traditional speech treatment program and speech perception training program combination. This treatment program will teach children not only how to produce sounds in academic vocabulary words, but to also identify correctly and incorrectly produced sounds in words.

Outcomes

Primary Outcome Measures

Change from baseline treated sound production accuracy at four months
Each treated sound will be point-by-point identified as being correct or incorrect in relation to its target phoneme. From these values, generalization data from each child will be examined from both descriptive and quantitative perspectives. Generalization will be descriptively defined using the learning criterion level of 10% or greater accuracy change in treated phonemes (Gierut & Morrisette, 2012a). For each child and each condition, generalization will be examined to see if the 10% criterion is met. Quantitatively, the amount of change from pre- to post-intervention in treated phoneme accuracy will be calculated separately for each child.

Secondary Outcome Measures

Change from baseline Mismatch Negativity (MMN) mean amplitude at four months
Given that the MMN is typically maximal over fronto-central midline electrode sites (e.g., Fz, FCz, and Cz) (Naatanen, Teder, Alho, & Lavikainen, 1992), these three electrodes will be selected for the mean MMN amplitude analyses. Each maximal peak latency will be first measured in the grand averaged waveforms using the ERPLAB Toolbox (Luck & Lopez-Calderon, 2012) across the 100-400 ms time window. Peak latencies elicited by the treated sound syllable and ba stimuli will be averaged across the three electrodes to determine the center latency of each peak. The center latency will be then used to align a 100 ms window (50 ms on either side) to measure the mean amplitudes for all electrodes and stimulus types. It is likely that the MMN mean amplitude window will be approximately 250-350 ms.
Change from baseline P1/P2 mean amplitude at four months
As every participant might not demonstrate a clear and measurable MMN peak (Cummings, Madden, & Hefta, 2017), mean amplitude measurements of the auditory P1/P2 ERP peak in the standard and deviant waveforms will also be taken as an additional measure of neural change occurring in conjunction with speech treatment. Three regions of interest (ROI) have been defined and electrodes for each ROI are defined as follows. Left hemisphere ROI channels are F5, FC5, and C5; midline ROI channels are Fz, FCz, and Cz; right hemisphere ROI channels are F6, FC6, and C6. The P1/P2 mean amplitude will be measured across a 100 ms window (100-200 ms post-syllable onset) for both the treated sound syllable and ba for all nine electrodes. The median P1/P2 amplitude for each subject and each ROI for both the pre-treatment and post-treatment assessments will then be calculated.
Event-related spectral perturbation (ERSP) channel analyses
ERSP channel analyses will be completed to examine theta (3-6 Hz) and alpha (8-13 Hz) band activity changes occurring in conjunction with speech treatment for both the treated sound and ba syllables. Data from all children will be included in the channel analyses. A left hemisphere region of interest (ROI) and a right hemisphere ROI have been identified to include channels associated with right and left IFG. The left ROI includes the following channels: F5, FC5, C5, F3, FC3, C3; the right ROI includes: F6, FC6, C6, F4, FC4, C4.
Change from baseline frequency following responses (FFRs) at four months
The timing, stability, and magnitude of FFRs elicited by consonants have been linked to children's phonological awareness and literacy skills (White-Schwoch et al., 2015). Thus, FFRs, as well as traditional auditory brainstem response (ABR) peaks, will be measured. For each FFR/ABR peak, grand average latency and amplitude measurements will be completed.
Event-related spectral perturbation (ERSP) independent component (IC) analyses
ERSP IC analyses will be completed to examine theta (3-6 Hz) and alpha (8-13 Hz) band activity changes occurring in conjunction with speech treatment for both the treated sound and ba syllables. Completing the IC cluster analyses will involve multiple steps. First, the pre- and post-treatment data for the treated sound and ba syllables will be put into separate studies in EEGLAB to examine neural changes occurring in conjunction with speech treatment. EEG component clusters will be identified for each of studies; not every subject is predicted to contribute data to each cluster. To limit the number of analyses, only clusters that have dipoles associated with the right and left inferior frontal gyrus (IFG) will be included. Moreover, the IC cluster analyses will only include data from subjects who have identifiable clusters present in both pre- and post-treatment assessments.
Change from baseline Percent Consonants Correct (PCC) at four months
All consonants will be point-by-point identified as being correct or incorrect in relation to its target phoneme. From these values, generalization data from each child will be examined from both descriptive and quantitative perspectives. Generalization will be descriptively defined using the learning criterion level of 10% or greater accuracy change in PCC scores (Gierut & Morrisette, 2012a). For each child and each condition, generalization will be examined to see if the 10% criterion is met. Quantitatively, the amount of change from pre- to post-intervention in PCC accuracy will be calculated separately for each child.

Full Information

First Posted
July 23, 2018
Last Updated
October 4, 2023
Sponsor
Idaho State University
Collaborators
National Institute on Deafness and Other Communication Disorders (NIDCD)
search

1. Study Identification

Unique Protocol Identification Number
NCT03623100
Brief Title
Neural Indices of Intervention Outcomes in Children With Speech Sound Disorders
Official Title
Identification of Electrophysiological Indices of Speech Sound Perception and Change in Children With Speech Sound Disorders
Study Type
Interventional

2. Study Status

Record Verification Date
October 2023
Overall Recruitment Status
Active, not recruiting
Study Start Date
August 1, 2014 (Actual)
Primary Completion Date
July 31, 2024 (Anticipated)
Study Completion Date
July 31, 2026 (Anticipated)

3. Sponsor/Collaborators

Responsible Party, by Official Title
Sponsor
Name of the Sponsor
Idaho State University
Collaborators
National Institute on Deafness and Other Communication Disorders (NIDCD)

4. Oversight

Studies a U.S. FDA-regulated Drug Product
No
Studies a U.S. FDA-regulated Device Product
No
Data Monitoring Committee
No

5. Study Description

Brief Summary
Children with speech sound disorders (SSD) are thought to be unable to detect subtle differences between sounds, though there is little understanding of the underlying perceptual mechanisms implicated in SSD. The investigators suggest that children with SSD may have difficulty creating phonological representations due to inaccurate perception and representation of speech sounds, which then directly impacts speech production abilities. Children will be randomly assigned to one of two treatment conditions in the present study: 1) Traditional speech treatment alone or 2) Traditional speech treatment in conjunction with speech perceptual training. By identifying an underlying mechanism of the disorder, the clinical approach to the treatment of SSD will be better informed and treatment approaches targeting all deficient areas can be utilized.
Detailed Description
Five to eight percent of all children in the United States have a speech sound disorder (SSD). Children with SSD have difficulty producing sounds of their target language system. Some of these children also have difficulty perceiving and categorizing speech sounds. It is presently unknown what underlying mechanisms might account for the communication problems children with SSD encounter. One possible explanation is that children with SSD cannot produce speech sounds correctly because they have poorly specified phonological representations, which are the result of inaccurate speech sound perception. Thus, speech sound production errors may stem from imprecise speech perception and its resulting sparse phonological representations. Most children with SSD make slow and steady gains in speech treatment. This is likely due to the fact that speech treatment typically targets just phonetics (i.e., speech production) and phonology (i.e., speech sound knowledge and use). However, it is possible that the underlying mechanisms of speech sound disorders are not specifically phonological in nature but may in fact be related to more general cognitive and/or linguistic impairments. Thus, children will be randomly assigned to one of two treatment conditions in the present study: 1) Traditional speech treatment alone or 2) Traditional speech treatment in conjunction with speech perceptual training. One goal of the research program is to identify what components of treatment induce the greatest amount of phonological change in children with SSD. By comparing the treatment components, the investigators will be able to identify what treatment activities induce the greatest phonological change in children. This information should aid in developing more efficient and effective treatment programs for SSD. A second goal of the research program to use electrophysiological measures (electroencephalogram, EEG; event-related potentials, ERP; frequency following responses, FFR) to examine how phonological representations and their associated auditory neural responses change in conjunction with the two traditional speech treatment approaches. A better understanding of phonological representations and the auditory sensory system in children with SSD will inform how speech evaluations and treatment are best conducted by speech-language pathologists.

6. Conditions and Keywords

Primary Disease or Condition Being Studied in the Trial, or the Focus of the Study
Speech Sound Disorder
Keywords
Children, Phonology, EEG, ERP, ABR, FFR

7. Study Design

Primary Purpose
Treatment
Study Phase
Not Applicable
Interventional Study Model
Parallel Assignment
Model Description
A single-subject staggered multiple baseline design will be used in the speech treatment program. Following procedures for this design, the children with SSD will be randomly assigned to one of two treatment conditions. These groups will be evaluated independently and in combination. Every subject will be evaluated in a baseline period in which no treatment is provided. Every subject will first complete a full baseline assessment. Subsequent baselines will consist only of a shorter baseline probe that specifically targets the phonemes each child did not produce during the initial baseline session. Thus, the first subject in each condition will have 2 baselines and then begin treatment. Each subsequent subject within each condition will have 1 additional baseline before beginning treatment.
Masking
None (Open Label)
Allocation
Randomized
Enrollment
42 (Actual)

8. Arms, Groups, and Interventions

Arm Title
Speech Treatment
Arm Type
Experimental
Arm Description
Half of the children will be assigned to the traditional speech treatment program which will focus on how to produce sounds in academic vocabulary words.
Arm Title
Speech Treatment & Perception
Arm Type
Experimental
Arm Description
Half of the children will be assigned to the traditional speech treatment program and speech perception training program combination. This treatment program will teach children not only how to produce sounds in academic vocabulary words, but to also identify correctly and incorrectly produced sounds in words.
Intervention Type
Behavioral
Intervention Name(s)
Speech Production Treatment.
Intervention Description
Speech production treatment will be delivered in two phases: Imitation and Spontaneous Production. Treatment will be provided two times weekly in 1-hour sessions, for up to 19 sessions. Every child's intervention program will target a single phoneme that was excluded from his or her phonemic inventory. Each treatment phoneme will be targeted through the production of five words that will be initially introduced to the child using a storybook reading format. Imitation treatment will continue until a child maintains 75% accurate production of the treated phoneme over two consecutive sessions (i.e. performance-based criterion) or until seven consecutive sessions are completed (i.e. time-based criterion). Spontaneous Production will continue until the child maintains either a performance-based criterion of 90% accurate production of the treated phoneme over 3 consecutive sessions, or a time-based criterion of 12 consecutive sessions.
Intervention Type
Behavioral
Intervention Name(s)
Speech Production + Speech Perception Treatment.
Intervention Description
This speech treatment condition will be administered in the same way as the Speech Production treatment. The difference in conditions will be that speech treatment in this condition will last for 50 minutes rather than 60 minutes. The remaining 10 minutes of each session will involve the speech perception training. These speech perception tasks will involve previously recorded word-level productions focusing on the same phoneme that is addressed in speech production treatment in word-initial position. A variety of words produced correctly and incorrectly by adults and children will be presented in pairs and the children will have to determine if the words contain the same word-initial phoneme or two different phonemes.
Primary Outcome Measure Information:
Title
Change from baseline treated sound production accuracy at four months
Description
Each treated sound will be point-by-point identified as being correct or incorrect in relation to its target phoneme. From these values, generalization data from each child will be examined from both descriptive and quantitative perspectives. Generalization will be descriptively defined using the learning criterion level of 10% or greater accuracy change in treated phonemes (Gierut & Morrisette, 2012a). For each child and each condition, generalization will be examined to see if the 10% criterion is met. Quantitatively, the amount of change from pre- to post-intervention in treated phoneme accuracy will be calculated separately for each child.
Time Frame
an average of 4 months
Secondary Outcome Measure Information:
Title
Change from baseline Mismatch Negativity (MMN) mean amplitude at four months
Description
Given that the MMN is typically maximal over fronto-central midline electrode sites (e.g., Fz, FCz, and Cz) (Naatanen, Teder, Alho, & Lavikainen, 1992), these three electrodes will be selected for the mean MMN amplitude analyses. Each maximal peak latency will be first measured in the grand averaged waveforms using the ERPLAB Toolbox (Luck & Lopez-Calderon, 2012) across the 100-400 ms time window. Peak latencies elicited by the treated sound syllable and ba stimuli will be averaged across the three electrodes to determine the center latency of each peak. The center latency will be then used to align a 100 ms window (50 ms on either side) to measure the mean amplitudes for all electrodes and stimulus types. It is likely that the MMN mean amplitude window will be approximately 250-350 ms.
Time Frame
an average of 4 months
Title
Change from baseline P1/P2 mean amplitude at four months
Description
As every participant might not demonstrate a clear and measurable MMN peak (Cummings, Madden, & Hefta, 2017), mean amplitude measurements of the auditory P1/P2 ERP peak in the standard and deviant waveforms will also be taken as an additional measure of neural change occurring in conjunction with speech treatment. Three regions of interest (ROI) have been defined and electrodes for each ROI are defined as follows. Left hemisphere ROI channels are F5, FC5, and C5; midline ROI channels are Fz, FCz, and Cz; right hemisphere ROI channels are F6, FC6, and C6. The P1/P2 mean amplitude will be measured across a 100 ms window (100-200 ms post-syllable onset) for both the treated sound syllable and ba for all nine electrodes. The median P1/P2 amplitude for each subject and each ROI for both the pre-treatment and post-treatment assessments will then be calculated.
Time Frame
an average of 4 months
Title
Event-related spectral perturbation (ERSP) channel analyses
Description
ERSP channel analyses will be completed to examine theta (3-6 Hz) and alpha (8-13 Hz) band activity changes occurring in conjunction with speech treatment for both the treated sound and ba syllables. Data from all children will be included in the channel analyses. A left hemisphere region of interest (ROI) and a right hemisphere ROI have been identified to include channels associated with right and left IFG. The left ROI includes the following channels: F5, FC5, C5, F3, FC3, C3; the right ROI includes: F6, FC6, C6, F4, FC4, C4.
Time Frame
an average of 4 months
Title
Change from baseline frequency following responses (FFRs) at four months
Description
The timing, stability, and magnitude of FFRs elicited by consonants have been linked to children's phonological awareness and literacy skills (White-Schwoch et al., 2015). Thus, FFRs, as well as traditional auditory brainstem response (ABR) peaks, will be measured. For each FFR/ABR peak, grand average latency and amplitude measurements will be completed.
Time Frame
an average of 4 months
Title
Event-related spectral perturbation (ERSP) independent component (IC) analyses
Description
ERSP IC analyses will be completed to examine theta (3-6 Hz) and alpha (8-13 Hz) band activity changes occurring in conjunction with speech treatment for both the treated sound and ba syllables. Completing the IC cluster analyses will involve multiple steps. First, the pre- and post-treatment data for the treated sound and ba syllables will be put into separate studies in EEGLAB to examine neural changes occurring in conjunction with speech treatment. EEG component clusters will be identified for each of studies; not every subject is predicted to contribute data to each cluster. To limit the number of analyses, only clusters that have dipoles associated with the right and left inferior frontal gyrus (IFG) will be included. Moreover, the IC cluster analyses will only include data from subjects who have identifiable clusters present in both pre- and post-treatment assessments.
Time Frame
an average of 4 months
Title
Change from baseline Percent Consonants Correct (PCC) at four months
Description
All consonants will be point-by-point identified as being correct or incorrect in relation to its target phoneme. From these values, generalization data from each child will be examined from both descriptive and quantitative perspectives. Generalization will be descriptively defined using the learning criterion level of 10% or greater accuracy change in PCC scores (Gierut & Morrisette, 2012a). For each child and each condition, generalization will be examined to see if the 10% criterion is met. Quantitatively, the amount of change from pre- to post-intervention in PCC accuracy will be calculated separately for each child.
Time Frame
an average of 4 months

10. Eligibility

Sex
All
Minimum Age & Unit of Time
4 Years
Maximum Age & Unit of Time
6 Years
Accepts Healthy Volunteers
Accepts Healthy Volunteers
Eligibility Criteria
Inclusion criteria (all children): Between the ages of 4;0 and 6;0 years English monolingual speakers Typical hearing abilities Typical overall development No apparent organic anomalies of the speech mechanism No global cognitive delays No receptive language impairments Inclusion criteria (children with speech sound disorders): Speech production abilities below the 10th percentile Exclude a minimum of 4 English consonants from sound repertoire No prior speech and/or language intervention services Prior diagnosis of speech sound disorder (SSD) Inclusion criteria (typically developing children): - All speech and language measures in the typical range Exclusion Criteria: Speaking a language other than (or in addition to) English Being above the age of 6 years or under 4 years
Overall Study Officials:
First Name & Middle Initial & Last Name & Degree
Alycia E Cummings, Ph.D.
Organizational Affiliation
Idaho State University - Meridian
Official's Role
Principal Investigator
Facility Information:
Facility Name
Idaho State University - Meridian
City
Meridian
State/Province
Idaho
ZIP/Postal Code
83642-7991
Country
United States

12. IPD Sharing Statement

Learn more about this trial

Neural Indices of Intervention Outcomes in Children With Speech Sound Disorders

We'll reach out to this number within 24 hrs