Investigating Speech Sequencing in Neurotypical Speakers and Persons With Disordered Speech

Summary

Persistent developmental stuttering affects more than three million people in the United States, and it can have profound adverse effects on quality of life. Despite its prevalence and negative impact, stuttering has resisted explanation and effective treatment, due in large part to a poor understanding of the neural processing impairments underlying the disorder. The overall goal of this study is to improve understanding of the brain mechanisms involved in speech motor planning and how these are disrupted in neurogenic speech disorders, like stuttering. The investigators will do this through an integrated combination of experiments that involve speech production, functional MRI, and non-invasive brain stimulation. The study is designed to test hypotheses regarding the brain processes involved in learning and initiating new speech sound sequences and how those processes compare in persons with persistent developmental stuttering and those with typical speech development. These processes will be studied in both adults and children. Additionally, these processes will be investigated in patients with neurodegenerative speech disorders (primary progressive aphasia) to further inform the investigators understanding of the neural mechanisms that support speech motor sequence learning. Together these experiments will result in an improved account of the brain mechanisms underlying speech production in fluent speakers and individuals who stutter, thereby paving the way for the development of new therapies and technologies for addressing this disorder.

Conditions

• Stuttering, Developmental
• Aphasia, Primary Progressive

Interventions

BEHAVIORAL

Learning of non-native phoneme combinations: 6 training sessions

Each trial of the training sessions will follow a simple reaction time protocol in which a nonsense syllable containing novel consonant clusters (e.g., GDADK) is produced as quickly and accurately as possible after an auditory prompt presented via earphones. During each training session, the participant will practice producing a set of 8 stimuli (the Fully Learned stimuli). Each of the 8 Fully Learned stimuli will be produced 60 times over the 6 training sessions.

BEHAVIORAL

Learning of non-native phoneme combinations: 1 training session

Each trial of the training sessions will follow a simple reaction time protocol in which a nonsense syllable containing novel consonant clusters (e.g., GDADK) is produced as quickly and accurately as possible after an auditory prompt presented via earphones. During the training session, the participant will practice producing a set of 3 stimuli (the Fully Learned stimuli). Each of the 3 Fully Learned stimuli will be produced 60 times.

BEHAVIORAL

Learning of novel multisyllabic nonwords

Each trial of the training sessions (total of 6 training sessions over 2 days) will follow a simple reaction time protocol in which a nonword stimulus formed by 2 or 3 syllables that are legal in American English is presented auditorily to the participant, who then produces the stimulus as quickly and accurately as possible. During training, each participant will repeatedly produce 6 nonwords, with each nonword produced a total of 60 times over the 6 training sessions.

DEVICE

Anodal tDCS

Continuous anodal tDCS is delivered to a speech processing area of the brain during a 19-minute speech training session. The tDCS stimulation will ramp up to its maximum value (2 milliamperes) in the minute prior to the training session and maintained at that level throughout the session.

DEVICE

Sham tDCS

Sham tDCS stimulation is delivered to a speech processing area of the brain during a 19-minute speech training session. During the minute prior to training onset, the tDCS stimulator is ramped up to 2 milliamperes and then back down to 0.

BEHAVIORAL

Learning of non-native phoneme combinations: 8 training sessions

Each trial of the training sessions will follow a simple reaction time protocol in which a nonsense syllable containing novel consonant clusters (e.g., GDADK) is produced as quickly and accurately as possible after an auditory prompt presented via earphones. During each training session, the participant will practice producing a set of 3 stimuli (the Fully Learned stimuli). Each of the 3 Fully Learned stimuli will be produced 120 times over the 8 training sessions.

Sponsors & Collaborators

• National Institute on Deafness and Other Communication Disorders (NIDCD)

  collaborator NIH

• University of Michigan

  collaborator OTHER

• Massachusetts General Hospital

  collaborator OTHER

• Boston University Charles River Campus

  lead OTHER

Principal Investigators

• Frank H Guenther, PhD · Boston University

• Soo-Eun Chang, PhD · University of Michigan

Study Design

Allocation

RANDOMIZED

Purpose

BASIC_SCIENCE

Masking

NONE

Model

PARALLEL

Eligibility

Min Age

6 Years

Sex

ALL

Healthy Volunteers

Yes

Timeline & Regulatory

Start

2023-04-03

Primary Completion

2026-05-31

Completion

2026-05-31

Countries

• United States

Study Locations