Stuttering, Childhood Clinical Trial
Official title:
Neural Processing of Speech Signals in Children Who Stutter
The purpose of this research study is to understand how speech and language are processed in the brain. This study will provide information that may help with the understanding how speech and language are processed in children and whether there may be differences between children who stutter and children who do not stutter. This project will evaluate these neural processes for speech signals in children who stutter and control subjects through a battery of behavioral speech and language tests, electroencephalography-based (EEG) tasks, functional magnetic resonance imaging (fMRI), and computational modeling.
The study will evaluate the integrity of neural processes underlying speech sound encoding and the ways in which these processes are modulated by task demands using neuroimaging and computational modeling. Age-appropriate standardized tests for assessing speech, language, and cognitive skills will be administered by a certified speech language pathologist or trained lab member. The investigators will also measure electroencephalography (EEG) via frequency following responses (FFRs) and temporal response functions (TRFs) while children complete speech-sound tasks of varying difficulty including syllable listening and identification and continuous speech narrative comprehension tasks. Both tasks will be presented in both quiet and in background noise. EEG signals will be collected using Ag-AgCl scalp electrodes, and responses will be recorded at a sampling rate of 25 kHz using Brain Vision Recorder (Brain Products, Gilching, Germany). The investigators will also leverage functional MRI (fMRI) to assess multiple neural systems underlying speech sound processing in children who stutter in a 3T scanner. Employing similar speech-sound tasks in the same participants as the EEG tasks will allow for quantifying neural activations and representations in auditory, speech motor articulatory, and attention networks during simple and complex speech tasks. A series of MRI scans will be recorded to provide data regarding the participant's brain anatomy. These scans will be analyzed on their own and also used in combination with functional scans. All participants will be screened for metal and other objects that are not appropriate for the MRI scanner room. Participants will be given earplugs and/or headphones to wear. ;
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