Semantic Learning Deficits in School Age Children With Developmental Language Disorder
NCT ID: NCT04508699
Last Updated: 2024-12-13
Study Results
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View full resultsBasic Information
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COMPLETED
NA
167 participants
INTERVENTIONAL
2022-10-31
2024-10-08
Brief Summary
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Detailed Description
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Storkel, expanding on an adult word learning model by Leach and Samuel, provides a clearly testable account of word learning that has been used with children with DLD. This account involves three processes: 1) triggering, in which a new lexical encounter is compared to existing lexical representations, 2) configuration, which adds information to the expanding lexical representation, and 3) engagement, which examines how the new lexical representation behaves dynamically with existing representations. The configuration process is arguably the most critical for semantic development. Successful configuration requires the simultaneous engagement of cognitive and linguistic processes, such as attention, inhibition, working memory, and semantic and syntactic processing. While it is widely accepted that configuration is the most affected word learning process in DLD, what is unknown is what underlies deficits in configuration and whether these deficits vary across the DLD profile. These questions are further compounded by difficulty measuring configuration and associated processes, given that they are largely internal, and therefore invisible. Electroencephalography (EEG) addresses this invisibility problem by allowing for a real-time examination of unconscious levels of semantic learning and cognitive and linguistic processes. A combined EEG-behavioral methods approach can illustrate how children with DLD are approaching configuration in terms of the relative contribution of these processes. The central hypothesis of this research is that children with DLD engage cognitive and linguistic processes at different points during configuration compared to their typical peers, resulting in poorer semantic learning outcomes.
To test the central hypothesis, the investigators will record behavioral and EEG data from 10-12 year old children with DLD and typical-language peers as they complete a semantic learning task. This age aligns with the point where vocabulary growth rates in DLD further diverge from typical peers \[6\]. In the semantic learning task, children listen to sets of three sentences that all end with the same nonword: half of the sentence triplets support learning meaning of the nonword, half do not. The investigators will analyze EEG data for event-related potentials (ERPs) as well as changes in neural oscillations (time frequency analysis). The investigators will combine EEG and behavioral measures to examine the following aims:
Aim 1. To investigate the cognitive and linguistic processes underlying configuration in children with DLD and typical language (TL) peers. This aim will include data from the semantic learning task. Based on the assessment of behavioral outcomes, the investigators predict that the TL group will be more accurate in semantic learning than the DLD group. ERP analyses will focus on the N400 component, associated with semantic processing. Time frequency analysis will focus on changes in the theta (4-8 Hz) and alpha (8-12 Hz) frequency bands, typically associated with lexical retrieval and attention/inhibition, respectively. For both neural measures, the investigators predict engagement of the same components (N400, theta, alpha) across groups but different patterns of change in those components during configuration between groups.
Aim 2. To investigate individual differences in configuration in children with DLD and TL peers. This aim will include data from the semantic learning task and a behavioral assessment battery. Assessment of behavioral data will focus the types of errors children make during semantic learning. The investigators expect that children with DLD will provide incorrect meanings for the nonword that best fit with the first sentence in the triplet and that TL children will provide incorrect meanings that best fit with the last sentence. The investigators will also examine individual differences related to semantic learning outcomes and fine-grained differences in N400 learning effects across groups. Here, the investigators expect that individual differences in general language ability and semantic knowledge, measured via the behavioral assessment battery, will be most predictive of both behavioral semantic learning and N400 change during learning.
Conditions
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Keywords
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Study Design
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NON_RANDOMIZED
PARALLEL
DIAGNOSTIC
DOUBLE
Study Groups
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Developmental language disorder
Children with language impairment but in the absence of cognitive deficits
semantic learning
Experimental semantic learning from linguistic context task
Typical language
Children with typical language development and typical cognitive development
semantic learning
Experimental semantic learning from linguistic context task
Interventions
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semantic learning
Experimental semantic learning from linguistic context task
Eligibility Criteria
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Inclusion Criteria
* must be willing to wear EEG cap
* must be able to sit still for 1.5 hours to complete experimental tasks
* must be literate
Exclusion Criteria
* significant neurological history (i.e., head injury, epilepsy)
* left handedness
* primary language other than English
* medication other than over-the-counter allergy medications
* and/or nonverbal IQ less than 70
10 Years
12 Years
ALL
Yes
Sponsors
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San Diego State University
OTHER
Responsible Party
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Alyson Abel Mills
Associate Professor
Principal Investigators
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Alyson Abel, PhD
Role: PRINCIPAL_INVESTIGATOR
San Diego State University
Locations
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San Diego State University
San Diego, California, United States
Countries
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Provided Documents
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Document Type: Study Protocol and Statistical Analysis Plan
Other Identifiers
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