View clinical trials related to Stuttering.
Filter by:The purpose of this study is to gain a better understanding of the brain's activity and organization in the development of speech disorders. It will compare brain activity in people with normal speech development with those who stutter or who have a phonological disorder (a deficit in how the brain processes speech sounds). Stuttering and phonological disorders emerge during the critical period of speech development between 2.5 and 12 years of age. During this period, the brain is much more adaptable for speech development than it is after puberty. This study will examine how the brain organization for speech production and perception develops normally during the critical period and how the normal pattern is altered when stuttering and phonological disorders become chronic problems, persisting throughout life. Volunteer adults and children with and without speech disorders may participate in this study. Eligibility screening will include a brief neurological and physical examination and tests to determine normal speech or a speech disorder. The speech testing will be videotaped. The subject will speak aloud, describe pictures, recall words or numbers, imitate speech sounds and words, and perform some listening tests. Study participants will undergo magnetic resonance imaging (MRI) to study brain activity. For this procedure, the subject lies on a stretcher that is moved into a donut-shaped machine with a strong magnetic field. During the MRI scan, the subject will perform simple tasks, such as listening to speech or other sounds and saying nonsense words. The procedure should take less than 60 minutes, and usually takes from 20 to 40 minutes.
Stuttering 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>
Stuttering 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.
According 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.
Positron 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>