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Clinical Trial Details — Status: Completed

Administrative data

NCT number NCT00024960
Other study ID # 020008
Secondary ID 02-DC-0008
Status Completed
Phase N/A
First received October 9, 2001
Last updated June 30, 2017
Start date October 3, 2001
Est. completion date October 29, 2010

Study information

Verified date October 29, 2010
Source National Institutes of Health Clinical Center (CC)
Contact n/a
Is FDA regulated No
Health authority
Study type Observational

Clinical Trial Summary

This study will use positron emission tomography (PET) to examine the role of the chemical messenger dopamine in stuttering. It will measure and compare the number of dopamine receptors and the amount of dopamine released in the brains of stutterers with that of normal volunteers. The results may provide information about how drugs that block dopamine's effect might work to enable fluent speech.

Healthy normal volunteers and people with developmental stuttering between the ages of 18 and 55 may be eligible for this study. Candidates will be screened with a medical history and possibly a physical examination and laboratory tests.

Participants will have a hearing test and cognitive function tests to measure speech, language, memory and visual skills. In addition, they will undergo the following procedures:

- PET scanning to measure brain blood flow and dopamine distribution in the brain. PET uses radioactive materials to show cellular activity in specific tissues of the body. Before starting the procedure, a thin plastic tube (intravenous, or IV line) is placed in a vein in each arm of the subject and a special plastic mask is molded to the face. (The mask is used to insure that the position of the head does not change during the scan.) For the scan, the subject lies on a bed that is positioned into the scanner. A preliminary "transmission" scan is done to make necessary measurements and adjustments. Following this scan, 10 injections of radioactive water are given through an IV line. During these injections, the subject performs a series of speech tasks-such as singing, telling a story, or reciting nursery rhymes-that will elicit either fluent speech or stuttering. A special camera detects the radiation emitted and produces images of brain blood flow during stuttering and normal speech. Next, raclopride (a radioactive material that attaches to dopamine receptors on the cell surface) is given through an IV line and more pictures of the brain are taken. Fifty minutes after the raclopride injection, amphetamine-a drug that increases brain dopamine levels-is injected through the other IV line and more pictures are taken to show dopamine distribution in the brain. Fifty minutes after the amphetamine infusion, the IV lines are removed.

- Magnetic resonance imaging (MRI) of the brain to complement and interpret information from the PET scans. MRI uses a strong magnetic field and radio waves to show structural changes in tissues. The subject lies on a table surrounded by a metal cylinder (the scanner). During the procedure, which may take from 20 minutes to 2 hours, subjects may be asked to perform simple tasks, such as speaking or moving their arms. They can speak with a staff member via an intercom at all times during the procedure and can be moved out of the machine any time they request.

Participants may be asked to return for up to two scanning sessions within a year. For these scans, only 1 injection of radioactive water will be given.


Description:

Clinical responses to dopamine (DA) antagonists from patients with developmental stuttering suggest that the pathophysiology of this disorder may involve an abnormality of central DA systems. This hypothesis has never been tested using methods that measure both pre- and postsynaptic dopaminergic mechanisms within the CNS. A new PET technique permits evaluation of these mechanisms in human subjects. 11C raclopride, a relatively selective D2 receptor antagonist, is used to estimate postsynaptic DA receptor binding potential following establishment of equilibrium conditions. A low dose bolus of amphetamine is then used to release DA from the presynaptic neuron and displace the ligand from postsynaptic binding sites, in order to estimate the size of the releasable presynaptic DA pool. We propose to use this technique in individuals with developmental stuttering and control subjects to test the hypothesis that stuttering is due to dopaminergic hyperactivity within the CNS. The cause of this hyperactivity is hypothesized to be due to an increase in either the postsynaptic binding potential or the size of the releasable presynaptic dopamine vesicular pool (in which case postsynaptic receptors may be down regulated). Our studies should help conjoin and modify this pathophysiological model. If low dose amphetamine can be used to demonstrate a difference between people who stutter and controls, a second study will be conducted to see if stuttering behavior per se has a measurable effect on DA release that differs from the effect of similar speech tasks in control subjects. Lastly, in a third study, DA releasability will be measured in those recovered from stuttering and those not affected by stuttering but are part of families who have many members that stutter. The culmination of these studies is to attempt isolation of a DA marker that can be used as a phenotyping tool in genetic studies of stuttering.


Recruitment information / eligibility

Status Completed
Enrollment 12
Est. completion date October 29, 2010
Est. primary completion date
Accepts healthy volunteers No
Gender All
Age group 18 Years to 55 Years
Eligibility - INCLUSION AND EXCLUSION CRITERIA - STUTTERING AND CONTROL SUBJECTS:

Subjects must be between the ages of 18 and 55.

Subjects must be in good general health except for the primary neurological diagnosis of stuttering.

Subjects may not have evidence of hypertension or cardiovascular disease, cerebrovascular disease or hyperthyroidism.

EKG and thyroid function tests must be within normal limits.

Subjects must have no history of traumatic head injury including any head trauma that resulted in loss of consciousness or history of substance abuse, including alcohol (excluding caffeine).

Subjects will be screened for history of psychiatric illness, such as depression, anxiety or obsessive-compulsive disorders according to DSM-IV; subjects with such diagnoses will be excluded.

Subjects will be screened for a past medical history or family history of speech-language disorders; subjects with a personal or significant family history of speech-language disorders unrelated to the diagnoses of stuttering or aphasia will be excluded. Also those subjects with immediate family members having a significant history of heart attack or stroke will be excluded.

Women who are pregnant or currently breast-feeding will be excluded from this study.

Subjects with pacemakers, aneurysm clips, cochlear implants, shrapnel fragments or have a significant history of exposure to small metallic objects, which might have become lodged in the tissues of the head, or neck will be excluded due to the MRI.

The following criteria must be met to identify an individual who stutters:

Affected individual regards him or herself as having a stuttering disorder, reporting instances during speech where they know exactly what they wish to say, but can not be due to production impairment; these instances may be accompanied by a feeling of tension somewhere within the vocal tract. Individuals may have sought treatment for their stuttering.

Speech-language pathologist confirms diagnosis of stuttering disorder in affected individuals, documenting presence of silent or sound prolongations, syllable repetitions, word/phrase repetitions, interjections and pauses at non-linguistic loci in their speech. Affected individuals will be at least 5% dysfluent in at least 2 of the speaking tasks used to assess fluency.

Recovered stutterers must have a history of stuttering documented by the speech pathologist responsible for evaluation or treatment of this individual during childhood. A history of stuttering may alternatively be documented by a parent and at least one other family member or friend. Recovered individuals must report that they no longer monitor their speech on a routine basis or use speech therapy techniques while speaking.

Speech-language pathologist must judge that recovered individuals are currently free of overt stuttering (less than 1 stuttering behavior/100 words).

Onset of stuttering in both affected individuals and recovered stutterers must have occurred in childhood (between 3 and 10 years-of-age), unrelated to psychological or neurological trauma.

Study Design


Related Conditions & MeSH terms


Locations

Country Name City State
United States National Institutes of Health Clinical Center, 9000 Rockville Pike Bethesda Maryland

Sponsors (1)

Lead Sponsor Collaborator
National Institute on Deafness and Other Communication Disorders (NIDCD)

Country where clinical trial is conducted

United States, 

References & Publications (3)

Allsopp LF, Cooper GL, Poole PH. Clomipramine and diazepam in the treatment of agoraphobia and social phobia in general practice. Curr Med Res Opin. 1984;9(1):64-70. — View Citation

Ambrose NG, Yairi E, Cox N. Genetic aspects of early childhood stuttering. J Speech Hear Res. 1993 Aug;36(4):701-6. — View Citation

Andrews G, Craig A, Feyer AM, Hoddinott S, Howie P, Neilson M. Stuttering: a review of research findings and theories circa 1982. J Speech Hear Disord. 1983 Aug;48(3):226-46. Review. — View Citation

See also
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Completed NCT03628755 - Effectiveness of Digital Manipulation of Thyroid Cartilage and Fluency Shaping Therapy for the Management of Stuttering in Adult N/A
Recruiting NCT05473572 - Effect of Stuttering Remediation Exercises on Cortical Auditory Evoked Potentials N/A