Comparison of Pantomiming and Easy Onset Treatment
StammeringThis research will give in-depth understanding of pantomiming and easy onset method as an intervention of stuttering and especially blocking. And by comparing both methods, It will also determine that which method is more effective. This research will also improve the overall awareness regarding stuttering
Central Mechanisms in Speech Motor Control Studied With H215O PET
Communication DisorderHealthy3 morePositron Emission Tomography (PET) is a technique used to investigate the functional activity of the brain. The PET technique allows doctors to study the normal biochemical and metabolic processes of the central nervous system of normal individuals and patients with neurologic illnesses without physical / structural damage to the brain. Radioactive water H215O in PET scans permits good visualization of areas of the brain related to speech. Most of the PET scan studies conducted have concentrated on learning about how language is formed and decoded. Few studies have been conducted on speech production. This study aims to use radioactive water (H215O) and Positron Emission Tomography (PET scan) to measure blood flow to different areas of the brain in order to better understand the mechanisms involved in speech motor control. When a region of the brain is active, it uses more fuel in the form of oxygen and sugar (glucose). As the brain uses more fuel it produces more waste products, carbon dioxide and water. Blood carries fuel to the brain and waste products away from the brain. As brain activity increases blood flow to and from the area of activity increases also. Knowing these facts, researchers can use radioactive chemicals (H215O) and PET scans to observe what areas of the brain are receiving more blood flow. Researchers will ask patients to perform tasks that will affect speech, voice, and language. At the same time patients will undergo a PET scan. The tasks are designed to help researchers observe the blood flow to brain areas associated with voicebox (laryngeal) functions, movement of muscles in the jaw, tongue, and mouth, and other aspects of motor speech. Special studies will be conducted to evaluate how certain therapies and tasks can draw out symptoms in illnesses in which speech and language are affected. Results of these tests will be used in other studies to evaluate the neurologic mechanisms of diseases like Tourette's syndrome and parkinson's disease.<TAB>
Modifying Unconscious Tongue Movements in Adults With Developmental Stammer.
StammeringThis is a pilot randomised controlled trial investigating whether using modification of saccadic eye movements can control lateral unconscious tongue positioning and enhance fluency in adults with a confirmed developmental stammer. This study is being conducted as part of an MSc by research qualification at the Institute of Technology Sligo in Ireland with a view to extending to PhD. The setting is home setting with all assessments either taking place at home via video link or in the institute. The study is being conducted in conjunction with the Community Speech and Language Therapist and has attained ethical approval through Sligo University Hospital (SUH) Ethics Committee.
How Stuttering and Gestures Influence the Intelligibility of Individuals With Down Syndrome
StutteringDown Syndrome3 moreThis study wants to determine the relationship between spontaneous hand gestures, stuttering and intelligibility in individuals with Down syndrome. One third of these individuals has fluency problems, such as stuttering. Gesture use appears to be a strength in individuals with Down syndrome. While they are able to compensate for their language problems, it is not clear if they also use gestures to compensate for their speech problems. Therefore, this study will observe the impact of their gesture use on the stuttering frequency/severity and on the intelligibility of children with Down syndrome. This study has three research questions. The first question is: Is there a difference in gesture use between individuals with Down syndrome who stutter and individuals with Down syndrome who do not stutter? The hypothesis is that the children who stutter will make more gestures to compensate for the fluency problems. The kind of spontaneous hand gestures will also be considered. These results will be compared to those of typical developing individuals. The second research question is: Are stuttering events that are accompanied by a gesture more intelligible than stuttering moments that are not accompanied by a gesture? Research showed that the use of signs has an positive impact on the speech intelligibility of individuals with Down syndrome. Here it is investigated if this is also true for spontaneous hand gestures. In case of better speech intelligibility it is investigated if the gain in intelligibility is caused by how recognizable the gesture is or by the effect of the gestures on speech itself. The effect of different types on the speech intelligibility of the stuttering events will also be investigated. Typically developing individuals who stutter will function as control group. The third research question is: 'Does gestural priming have an influence on the fluency of children with Down syndrome? Gestural priming is a secondary speech signal that gives feedback to the first speech signal by simultaneously mimicking the first speech signal. In this research a hand puppet will imitate the mouth movements of the participants. Next to that, the speech will be simultaneously be accompanied by beat gestures, meaningless up and downward movements. The hypothesis is that due to mirror neurons, the participants will become more fluent. Mirror neurons are neurons in the brain that can produce a neural basis for fluency by the perception of the second speech signal.
Follow-up of Children After Stuttering Treatment
StutteringThis study aims to determine the percentage and predictors of stuttering relapse following treatment with the Lidcombe Program. It will also investigate the effectiveness of sending reminder messages to parents to assist in reducing relapse.
Dopamine Function in Developmental Stuttering
Developmental StutteringThis 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.
Spacing Lidcombe Program Clinic Visits
StutteringThe purpose of this study is to evaluate the efficiency of the Lidcombe Program for early stuttering by varying the time between clinic visits during the first stage of the program.
Genetic Linkage Studies of Stuttering
StutteringStuttering is an abnormality in speech that affects the rhythm of speech. People who stutter know what they wish to say, but at the time are unable to say it because of involuntary repetition, unnecessary lengthening (prolongation), or early stopping (cessation). Stuttering is characterized by repetitions or prolongation of the first syllable, or silent prolongations, sometimes known as blocks. Researcher intend on studying the genetic basis for stuttering. The goal of the study is to find the genes that help cause stuttering and determine regions of the human genetic make-up (genome) that are linked to stuttering.. To do this researchers will study the patterns of inheritance in families who have had members who stutter. The study has two objectives. The first objective is to develop a large collection of DNA samples from individuals in stuttering families, that will include both members that stutter and who do not stutter. The second objective of the study will be to find out the basic combination of genes (genotype) making up all of the participants DNA. Once this is completed researchers hope to map out and find areas or regions of DNA that are linked to stuttering. Genetic linkage is the initial step in positional cloning, and the cloning of genes which predispose individuals to stuttering is a long term goal of this research study.<TAB>
Characteristics of Idiopathic Familial Speech Disorders
Developmental Articulation DisorderSpeech Disorder1 moreAccording to studies, speech disorders with unknown causes (idiopathic) affect approximately 5% of the population at some point in their life. Some of these disorders like, stuttering and cluttering, are known for being detected early, during speech development. Stuttering is characterized by sound and syllable repetitions and consonant/vowel prolongations. When stuttering is moderate to severe, it can interfere with a person's job and social activities. Speech articulation disorders are characterized by omissions, or substitutions of speech sounds. The speech of a person who clutters is often difficult to understand. People are often unaware of the errors they make when speaking causing treatment of the condition to be very difficult. The purpose of this research is to study an extended family whose members exhibit a pure form of speech articulation disorders In addition, the study will use data and information gathered from the study and use it to develop guidelines (criteria) for defining and differentiating patients with speech disorders.
Genetic Factors Related to Stuttering
StutteringStuttering is an abnormality in speech that affects the rhythm of speech. People who stutter know what they wish to say, but at the time are unable to say it because of involuntary repetition, unnecessary lengthening (prolongation), or early stopping (cessation). This study is designed to increase understanding of the genetic factors that may relate to stuttering. Deoxyribonucleic acid (DNA) is a protein found in the nucleus of all cells. It is responsible for carrying the genetic information of the organism. DNA provides the directions for making all of the substances in the human body. DNA can be linked together in small segments called genes. Genes can contain information about anything related to an organism. In order for researchers to determine what genes are directly related to stuttering they must conduct several types of studies. Linkage studies, are studies of families that have a lot of members who stutter from several generations. The linkage studies will be completed using adult individuals who are diagnosed as persons who stutter and persons who have never stuttered, from one or more families with large numbers of family members who have stuttered over several generations. Candidate gene studies, look closely at genes suspected to be related to stuttering in patients who may or may not have a significant family history of stuttering. By conducting these studies, researchers hope to learn more about genes related to stuttering and ultimately find out what causes stuttering.