Neuroimaging Reveals Treatment-related Changes in DLD

Not Applicable

Recruiting

• Conditions: Developmental Language Disorder
• Interventions: Behavioral: My Sentence Builder

• Registration Number: NCT05268341
• Lead Sponsor: University of Cincinnati

Brief Summary

Children with developmental language disorders (DLD, aka specific language impairment), a prevalent pediatric disorder, experience hallmark grammar deficits with life-long impacts on educational and occupational outcomes. While effective and early interventions can mitigate the impact of DLD, not enough is known about the neural basis of DLD in young children, yet is needed to inform the design of more individualized interventions. This project uses neuroimaging, along with behavioral methods, with the goal of better understanding the memory-language mechanisms that underlie grammar learning and impairment, while also considering their association to treatment-related changes in preschoolers with DLD.

Detailed Description

Although the impact of developmental language disorder (DLD), a prevalent preschool disorder, can be mitigated through evidence-based and early interventions, little is known about the neural basis of DLD, especially in young children, yet is useful in the design of efficacious treatments. While much of the evidence has been furnished by studies examining domain-specific processes (language network), domain-general processes relating memory and language also offer valuable testing ground and present the opportunity to advance the current knowledge base. The Procedural circuit Deficit Hypothesis (PDH) posits that grammar deficits are explained by an impairment of procedural memory (rule learning, "knowing how"). This impairment is associated with structural abnormalities in connections between frontal brain regions and basal ganglia, with corresponding underactivation and reduced functional connectivity. However, the declarative memory system (semantic, "knowing what"), supported by cortical and subcortical regions in the temporal lobes, including hippocampus, is spared, acting as a compensatory mechanism to offset grammar deficits.

This proposed research will use neuroimaging (functional MRI and diffusion imaging) to describe the neural basis (functional and structural connectivity) of grammar learning and treatment-related change by way of the PDH. The investigators will gather critical data regarding grammar learning in preschoolers with DLD before, after, and following a break in intervention (computer-assisted treatment: DLD treatment; "business as usual": DLD no treatment) as part of a randomized controlled trial. The investigators will also include typically developing (TD) peers to inform development vs disorder. Our central hypothesis is that treatment designed to improve grammar learning will normalize the procedural learning network in association with increases in language function and that the degree of improvement may be associated with the underlying neurobiology of baseline grammar deficits.

Building on a robust history of recruitment and treatment of preschoolers with DLD, the investigators will enroll 184 preschoolers, 100 with DLD (n=50 treatment; n=50 no treatment controls) and 84 TD. Aim 1 will establish the relationship between functional and structural connectivity for preschoolers with DLD and their TD peers between regions in the procedural learning and declarative networks. In Aim 2, the investigators will establish the neurobiological basis of treatment-related changes in DLD only. The investigators examine potential changes in functional and structural connectivity between regions of the procedural learning and declarative memory networks, and investigate whether treatment-related changes occur into the typical range (DLD and TD). To meet our scientific goals, the investigators pair behavioral tools (traditional grammar tools) with neuroimaging to describe co-occurring behavioral performance underlying learning and outcome. This research will contribute novel insights into mechanisms underlying learning and impairment to help advance the evidence-based management of DLD.

Study Timeline

• Study First Submitted: 2022-02-10
• Study First Submitted QC: 2022-03-02
• Study First Posted: 2022-03-07
• Study Start: 2022-05-24
• Status Verified: 2025-05
• Last Update Submitted: 2025-05-01
• Last Update Posted: 2025-05-06
• Primary Completion: 2027-06-30
• Study Completion: 2027-06-30

Recruitment & Eligibility

• Status: RECRUITING
• Sex: All
• Target Recruitment: 184

Inclusion Criteria

• ages 48-71 months
• average nonverbal intelligence quotient (IQ)
• enrolled in participating center
• typically developing (receptive and expressive language, social, articulation, other)
• DLD for expressive grammar
• typical oral motor function
• typical social/pragmatics skills
• average hearing thresholds
• monolingual and native Standard English speakers
• does not have any uncorrected vision challenges

Exclusion Criteria

• receiving co-occurring speech-language or other intervention for communication
• not MRI safe
• special education placement of child based on ability or behavior

Study & Design

• Study Type: INTERVENTIONAL
• Study Design: PARALLEL

Arm && Interventions

Group	Intervention	Description
Treatment	My Sentence Builder	computer assisted intervention targeting expressive grammar for preschoolers with DLD

Primary Outcome Measures

Name	Time	Method
Functional connectivity data DLD preschoolers only to assess changes with treatment	Pre-to-post (up to 14 weeks), post-to-followup (at 27 to 28 weeks)	Primary: Pre-to-post changes and maintenance of changes post-to-followup in functional connectivity (assessed using fMRI from the SCELT-P) between ROI within the procedural learning network and within the declarative memory network.
Functional connectivity data (time 1) from typical and DLD preschoolers	Time 1 (pre)	Aim 1 (all TD and DLD preschoolers)- Primary: Pre/Time 1 data for functional connectivity (assessed using fMRI from the Sentence Completion Expressive Language Task- Preschool (SCELT-P)) between Regions of Interest (ROI) in the procedural learning network and in the declarative memory network
Functional connectivity data for typically developing and DLD preschoolers to assess changes in development	pre-to-follow-up (up to 28 weeks)	Changes in development (pre-to-followup) in functional connectivity (assessed using fMRI from the SCELT-P) between ROI within the procedural learning and declarative memory networks.

Secondary Outcome Measures

Name	Time	Method
Raw score on the DSS for DLD preschoolers only to assess change with treatment	Pre-to-post (up to 14 weeks), post-to-followup (at 27 to 28 weeks)	Additional secondary outcomes raw score a standard play based task (DSS) to assess changes with treatment
Structural connectivity data for typically developing and DLD preschoolers to assess development and disorder over time.	pre-to-followup (up to 28-weeks)	Main Secondary: Changes in development (pre-to-followup) in structural connectivity (assessed using diffusion imaging) between anatomically-selected ROI in the procedural learning network and in the declarative memory network
Percent correct on a grammar task for typically developing and DLD preschoolers to assess development and disorder.	pre-to-followup (up to 28-weeks)	Additional secondary outcomes raw score on the PI-designed 45-item grammar probe (%correct for each of the three target forms, 15-forms per target). Scores are combine to get a total score on the task
Raw score on the SPELT-3 for typically developing and DLD preschoolers to assess development	pre-to-followup (up to 28-weeks)	Additional secondary outcomes raw score a standard grammar test (SPELT-3)
Percent correct on a grammar screener for DLD preschoolers only to identify treatment targets	Pre/Time 1 (up to 3-weeks)	Additional secondary outcomes: raw change score on the PI-designed grammar probe
Structural connectivity data for DLD preschoolers only to assess changes with treatment	pre-to-post (up to 14-weeks) and post-to-follow-up (at 27 to 28 weeks)	Main Secondary Pre-to-post changes and maintenance of changes post-to-followup in structural connectivity (assessed using diffusion imaging) between anatomically-selected ROI in the procedural learning network and declarative memory network
Raw score on the DSS for typically developing and DLD preschoolers to assess development	pre-to-followup (up to 28-weeks)	Additional secondary outcomes raw score a standard play based task (DSS) to assess development and disorder
Structural connectivity data for typically developing and DLD preschoolers	Pre/Time 1 (up to 3-weeks)	Main Secondary: structural connectivity (assessed using diffusion imaging) between anatomically-selected ROI in the procedural learning and declarative memory networks
Percent correct on a grammar task for DLD preschoolers only	Pre-to-post (up to 14 weeks), post-to-followup (at 27 to 28 weeks)	Additional secondary outcomes raw score on the PI-designed 45-item grammar probe (%correct for each of the three target forms, 15-forms per target). Scores are combine to get a total score on the task.
Raw score on the SPELT-3 for DLD preschoolers only to assess change with treatment	Pre-to-post (up to 14 weeks), post-to-followup (at 27 to 28 weeks)	Additional secondary outcomes raw score a standard grammar test (SPELT-3)

Trial Locations

Locations (6)

New Horizon Childcare; 🇺🇸 Cincinati, Ohio, United States

Empower Learn Create INC; 🇺🇸 Cincinnati, Ohio, United States

Cincinnati Children's Hospital; 🇺🇸 Cincinnati, Ohio, United States

CWFF CHild Development Center; 🇺🇸 Cincinnati, Ohio, United States

Wesley Education Center for Children and Families; 🇺🇸 Cincinnati, Ohio, United States

University of Cincinnati; 🇺🇸 Cincinnati, Ohio, United States