Imaging Speech in Neurotypical Adults and Individuals With Cerebellar Stroke

Not Applicable

Not yet recruiting

• Conditions: Stroke; Cerebellum
• Interventions: Behavioral: Neural responses to speech functional localizer; Behavioral: Neural responses to silent articulation; Behavioral: Neural responses to self vs. externally generated speech; Behavioral: Event-related potentials for speech; Behavioral: Neural responses to induced speech errors; Behavioral: Neural responses to sensory-motor adaptation; Behavioral: Speech production behaviors; Behavioral: Auditory acuity testing; Behavioral: Neural responses to learning a non-speech auditory motor behavior

• Registration Number: NCT06458153
• Lead Sponsor: University of Pittsburgh

Brief Summary

The goal of this research study is to learn how the brain areas that plan and control movement interact with the areas responsible for hearing and perceiving speech in healthy adults and people who have had cerebellar strokes. The main questions it aims to answer are:

1. What regions of the brain's sensory systems show changes in their activity related to speech?

2. To what extent do these regions help listeners detect and correct speech errors?

3. What is the role of the cerebellum (a part of the brain in the back of the head) in these activities?

Participants will be asked to complete several experimental sessions involving behavioral speech and related tests and non-invasive brain imaging using electroencephalography (EEG) and functional magnetic resonance imaging (fMRI).

Detailed Description

This study aims to provide an integrated view of brain systems underlying predictive coding in speech with unprecedented detail using ultra-high field (7 Tesla) functional magnetic resonance imaging. The overall approach is a condition-intensive within-subjects design, with extensive sampling of individual participants, including a group who have had strokes impacting the cerebellum, across multiple sessions.

Participants will be asked to complete up to 6 sessions. Passing a hearing assessment using standard audiological procedures, conducted at the start of the first session, is a requirement for participation. The experimental sessions involve behavior and non-invasive brain imaging.

Investigators will ask participants to perform several short tasks to measure different aspects of their speech production and speech perception (e.g., reading passages or words aloud, making judgements about sounds).

In one session, Investigators will measure electroencephalography (EEG) while participants complete tasks involving producing and hearing speech sounds. Participants will be fitted with an elastic cap and up to 32 non-invasive recording electrodes.

In other sessions, investigators will measure structural and functional magnetic resonance imaging (fMRI). Structural images demonstrate the unique brain anatomy of the participant. Functional images will be obtained while the participant completes specific tasks involving listening, speaking, or completing other motor actions (e.g., pressing a button). All participants will be screened for MRI risk factors prior to each session.

Study Timeline

• Study First Submitted: 2024-06-03
• Study First Submitted QC: 2024-06-07
• Study First Posted: 2024-06-13
• Status Verified: 2024-12
• Study Start: 2025-05
• Last Update Submitted: 2025-05-05
• Last Update Posted: 2025-05-08
• Primary Completion: 2028-07
• Study Completion: 2028-07

Recruitment & Eligibility

• Status: NOT_YET_RECRUITING
• Sex: All
• Target Recruitment: 100

Inclusion Criteria

Cohort 1 (neurotypical adults):

• Age 18-49
• Right-handed
• Native English speaker

Cohort 2 (people with cerebellar lesions):

• Age 18 or older
• Right-handed
• Native English speaker
• History of cerebellar stroke

Cohort 3 (controls matched to Cohort 2)

• Age 18 or older
• Right-handed
• Native English speaker

Exclusion Criteria

Cohort 1 (neurotypical adults):

• Presence of MRI risk factors: metal and/or electromagnetic devices (e.g., pacemakers, neurostimulators) in the body, previous shrapnel injuries, use of an intrauterine device containing metal, claustrophobia, pregnant or possibly pregnant
• History of neurological disease, injury, or impairment
• Hearing loss, defined by pure tone thresholds >25 decibels (dB) hearing level (HL) at octave frequencies between 250-8000 Hz
• Clinically diagnosed with or treated for a neuropsychiatric disorder
• Clinically diagnosed with or treated for a speech, language, or hearing disorder
• Head circumference greater than 60cm or weight greater than 300 pounds
• History of claustrophobia
• Currently pregnant

Cohort 2 (people with cerebellar lesions):

• Presence of MRI risk factors: metal and/or electromagnetic devices (e.g., pacemakers, neurostimulators) in the body, previous shrapnel injuries, use of an intrauterine device containing metal, claustrophobia, pregnant or possibly pregnant
• Hearing loss, defined by pure tone thresholds >50 dB HL at octave frequencies between 250-4000 Hz
• Clinically diagnosed with or treated for a neuropsychiatric disorder
• Head circumference greater than 60cm or weight greater than 300 pounds
• History of claustrophobia
• Currently pregnant

Cohort 3 (controls matched to Cohort 2):

• Presence of MRI risk factors: metal and/or electromagnetic devices (e.g., pacemakers, neurostimulators) in the body, previous shrapnel injuries, use of an intrauterine device containing metal, claustrophobia, pregnant or possibly pregnant
• History of neurological disease, injury, or impairment
• Hearing loss, defined by pure tone thresholds >50 dB HL at octave frequencies between 250-4000 Hz
• Clinically diagnosed with or treated for a neuropsychiatric disorder
• Clinically diagnosed with or treated for a speech, language, or hearing disorder
• Head circumference greater than 60cm or weight greater than 300 pounds
• History of claustrophobia
• Currently pregnant

Study & Design

• Study Type: INTERVENTIONAL
• Study Design: SINGLE_GROUP

Arm && Interventions

Group	Intervention	Description
Speech behavior and functional imaging	Neural responses to silent articulation	Assessing the neural correlates of speaking-induced sensory modulation in all three cohorts using behavior and neuroimaging tasks in up to 6 sessions.
Speech behavior and functional imaging	Neural responses to self vs. externally generated speech	Assessing the neural correlates of speaking-induced sensory modulation in all three cohorts using behavior and neuroimaging tasks in up to 6 sessions.
Speech behavior and functional imaging	Speech production behaviors	Assessing the neural correlates of speaking-induced sensory modulation in all three cohorts using behavior and neuroimaging tasks in up to 6 sessions.
Speech behavior and functional imaging	Auditory acuity testing	Assessing the neural correlates of speaking-induced sensory modulation in all three cohorts using behavior and neuroimaging tasks in up to 6 sessions.
Speech behavior and functional imaging	Neural responses to learning a non-speech auditory motor behavior	Assessing the neural correlates of speaking-induced sensory modulation in all three cohorts using behavior and neuroimaging tasks in up to 6 sessions.
Speech behavior and functional imaging	Event-related potentials for speech	Assessing the neural correlates of speaking-induced sensory modulation in all three cohorts using behavior and neuroimaging tasks in up to 6 sessions.
Speech behavior and functional imaging	Neural responses to speech functional localizer	Assessing the neural correlates of speaking-induced sensory modulation in all three cohorts using behavior and neuroimaging tasks in up to 6 sessions.
Speech behavior and functional imaging	Neural responses to induced speech errors	Assessing the neural correlates of speaking-induced sensory modulation in all three cohorts using behavior and neuroimaging tasks in up to 6 sessions.
Speech behavior and functional imaging	Neural responses to sensory-motor adaptation	Assessing the neural correlates of speaking-induced sensory modulation in all three cohorts using behavior and neuroimaging tasks in up to 6 sessions.

Primary Outcome Measures

Name	Time	Method
EEG responses to self vs. externally generated speech	One session lasting 2-3 hours, within 12 months of enrollment	The dependent variables are evoked responses, aligned to sound onset, measured with EEG during task performance. We will contrast evoked responses across conditions (e.g., TALK, LISTEN).
BOLD responses related to pre-speech auditory modulation	One session lasting 2-3 hours, within 12 months of enrollment	The dependent variables (across voxels) are blood oxygenated level dependent fMRI measurements made during task performance. We will contrast measured activations in regions of interest for responses to auditory stimuli across conditions (e.g., SPEAK, REHEARSE, PLAN, SILENT).
BOLD responses to induced auditory errors	One session lasting 2-3 hours, within 12 months of enrollment	The dependent variables (across voxels) are blood oxygenated level dependent fMRI measurements made during task performance. We will determine activations in regions of interest that correlate with applied perturbations during speech. We will also compare SPEAK vs. LISTEN activations in perturbed and unperturbed conditions.
Blood oxygenation level dependent (BOLD) responses to self vs. externally generated speech	One session lasting 2-3 hours, within 12 months of enrollment	The dependent variables (across voxels) are blood oxygenated level dependent fMRI measurements made during task performance. We will contrast measured activations in regions of interest for the LISTEN-SELF vs. PRODUCE and LISTEN-OTHER vs. PRODUCE conditions. Encoding models will predict activity in regions-of-interest (ROIs) based on a set of speech features.
BOLD responses during learning of non-speech auditory motor targets	One session lasting 2-3 hours, within 12 months of enrollment	The dependent variables (across voxels) are blood oxygenated level dependent fMRI measurements made during task performance. We will contrast measured activations in regions of interest for responses during PRESS trials across runs. We will contrast LISTEN vs. PRESS trials to measure motor induced sensory modulation.
BOLD responses during adaptation to auditory perturbations	One session lasting 2-3 hours, within 12 months of enrollment	The dependent variables (across voxels) are blood oxygenated level dependent fMRI measurements made during task performance. We will contrast measured activations in regions of interest for responses during the HOLD and BASELINE phases of the adaptation paradigm. We will determine areas where activation is associated with changes in formant frequencies in early and late windows in speech recordings.

Secondary Outcome Measures

Name	Time	Method
BOLD responses to speech listening task	One session lasting 2-3 hours, within 12 months of enrollment	The dependent variables (across voxels) are blood oxygenated level dependent fMRI measurements made during task performance. We will contrast measured activations for the SPEECH vs. signal correlated noise (SCN) and SPEECH vs. SILENT conditions.
BOLD responses to silent articulation task	One session lasting 2-3 hours, within 12 months of enrollment	The dependent variables (across voxels) are blood oxygenated level dependent fMRI measurements made during task performance. We will contrast measured activations for silent articulation vs. a resting baseline condition.
Speech formant frequencies	First session lasting 2-3 hours, within 12 months of enrollment	We will measure participant-specific phonetic variables (formant frequencies) based on participant speech from reading passages and word production.
Spontaneous Speech Synchronization Index	First session lasting 2-3 hours, within 12 months of enrollment	We will measure the Spontaneous Speech Synchronization Index based on behavioral speech data.
Auditory acuity	First session lasting 2-3 hours, within 12 months of enrollment	We will measure auditory acuity (just noticeable difference) for changes in formant frequencies based on behavioral speech samples.

Trial Locations

Locations (1)

University of Pittsburgh; 🇺🇸 Pittsburgh, Pennsylvania, United States