Ignite Creation Date:
2024-05-11 @ 8:30 AM
Last Modification Date:
2024-10-26 @ 3:29 PM
Study NCT ID:
NCT06405594
Status:
RECRUITING
Last Update Posted:
2024-07-10
First Post:
2024-05-01
Brief Title:
Neurocognitive Mechanisms of Sentence Production Impairment in Aphasia
Sponsor:
University of Maryland College Park
Organization:
University of Maryland College Park
Study Overview
Official Title:
Neurocognitive Mechanisms of Sentence Production Impairment in Aphasia
Status:
RECRUITING
Status Verified Date:
2024-08
Last Known Status:
None
Delayed Posting:
No
If Stopped, Why?:
Not Stopped
Has Expanded Access:
False
If Expanded Access, NCT#:
N/A
Has Expanded Access, NCT# Status:
N/A
Acronym:
sentence
Brief Summary:
The proposed research is relevant to public health because stroke is a leading cause of long-term disability among older adults and communication impairments resulting from stroke have a significant negative impact on quality of life By seeking to better understand post-stroke aphasia this project lays the groundwork for development of new interventions and aligns with NIDCDs priority areas 1 understanding normal function 2 understanding diseases and 3 improving diagnosis treatment and prevention
Detailed Description:
Post-stroke agrammatic aphasia PSA-G is characterized by a cluster of symptoms fragmented sentences errors in functional morphology a dearth of verbs and slow speech rate yet extant theories and language interventions focus on individual symptoms This single-symptom theoretical and intervention focus results in limited gains in functional communication The long-term goal of this research is to improve the clinical effectiveness of interventions for PSA-G
As a first step towards this goal this projects objective is to advance the theoretical framework of PSA-G by addressing two critical gaps The first gap is in the mechanistic understanding of how lexical grammatical motoric and cognitive processes work together to enable fluent sentence production and how this breaks down in PSA-G The second gap is in the understanding of neural mechanisms underlying how sentence production planning normally unfolds over time and what crucial spatiotemporal alterations give rise to PSA-G versus other variants of post-stroke aphasia with predominantly lexico-semantic deficits PSA-LS The central hypothesis is that agrammatic language production results from spatiotemporal alterations in the neural dynamics of morphosyntactic and phonomotor processes causing a cumulative processing bottleneck at the point of articulatory planning This Synergistic Processing Bottleneck Model of Agrammatism will be tested with two specific aims
Specific Aim 1 will elucidate the relative contribution of syntactic and non-syntactic processes towards sentence production in aphasia by using speed metrics and a path modeling framework The expected outcomes of this aim are an improved understanding of the extent to which delays in different linguistic processes underlying the agrammatic symptom cluster impair fluent sentence production in aphasia generally and in PSA-G versus PSA-LS more specifically
Specific Aim 2 will determine the neural mechanisms underlying sentence production across language deficit profiles Magnetoencephalography MEG will be used to compare alterations in timecourse and functional connectivity of key perilesional and contralesional syntactic hubs across increasingly demanding morphosyntactic production tasks The expected outcome of this aim is a spatiotemporally specified neural model of sentence production in neurotypical PSA-G and PSA-LS speakers
The significance this research is that it will forward an empirically established multidimensional model of sentence production which will lay the foundation for developing more targeted and effective language interventions for agrammatic aphasia It will also contribute to a better understanding of agrammatism in neurodegenerative aphasias The innovative aspects of this project include a novel multidimensional theoretical framework that incorporates non-syntactic dimensions of phonomotor planning processing capacity and speed and neurophysiological dynamics direct comparisons between PSA-G and PSA-LS groups and MEG analysis of spoken language with simultaneous electromyographic measurement
As a first step towards this goal this projects objective is to advance the theoretical framework of PSA-G by addressing two critical gaps The first gap is in the mechanistic understanding of how lexical grammatical motoric and cognitive processes work together to enable fluent sentence production and how this breaks down in PSA-G The second gap is in the understanding of neural mechanisms underlying how sentence production planning normally unfolds over time and what crucial spatiotemporal alterations give rise to PSA-G versus other variants of post-stroke aphasia with predominantly lexico-semantic deficits PSA-LS The central hypothesis is that agrammatic language production results from spatiotemporal alterations in the neural dynamics of morphosyntactic and phonomotor processes causing a cumulative processing bottleneck at the point of articulatory planning This Synergistic Processing Bottleneck Model of Agrammatism will be tested with two specific aims
Specific Aim 1 will elucidate the relative contribution of syntactic and non-syntactic processes towards sentence production in aphasia by using speed metrics and a path modeling framework The expected outcomes of this aim are an improved understanding of the extent to which delays in different linguistic processes underlying the agrammatic symptom cluster impair fluent sentence production in aphasia generally and in PSA-G versus PSA-LS more specifically
Specific Aim 2 will determine the neural mechanisms underlying sentence production across language deficit profiles Magnetoencephalography MEG will be used to compare alterations in timecourse and functional connectivity of key perilesional and contralesional syntactic hubs across increasingly demanding morphosyntactic production tasks The expected outcome of this aim is a spatiotemporally specified neural model of sentence production in neurotypical PSA-G and PSA-LS speakers
The significance this research is that it will forward an empirically established multidimensional model of sentence production which will lay the foundation for developing more targeted and effective language interventions for agrammatic aphasia It will also contribute to a better understanding of agrammatism in neurodegenerative aphasias The innovative aspects of this project include a novel multidimensional theoretical framework that incorporates non-syntactic dimensions of phonomotor planning processing capacity and speed and neurophysiological dynamics direct comparisons between PSA-G and PSA-LS groups and MEG analysis of spoken language with simultaneous electromyographic measurement
Study Oversight
Has Oversight DMC:
None
Is a FDA Regulated Drug?:
False
Is a FDA Regulated Device?:
False
Is an Unapproved Device?:
None
Is a PPSD?:
None
Is a US Export?:
None
Is an FDA AA801 Violation?:
None