View clinical trials related to Communication Disorders.
Filter by:Study Description: It may be in the interest of the NIDCD Clinical Research Program (CRP) to collect clinical data or specimens generated in the diagnosis and treatment of head and neck or communication disorders and to evaluate patients to determine candidacy for intramural clinical studies. This protocol will provide the administrative vehicle to enable the evaluation and provision of clinical care for patients with head and neck and communication disorders by the NIDCD CRP, Clinical Center, and consult services. No investigational therapies will be administered in this study. Objectives and Endpoints: (Summation)To collect clinical data or specimens generated in the diagnosis and treatment of head and neck or communication disorders (Summation)To evaluate patients to determine candidacy for intramural clinical studies Study Population: Patients at risk, suspected of having, have a history of, or currently have a diagnosed head and neck or communication disorder referred to NIDCD Clinical Investigators by the Intramural Consult Service or community providers Description of Sites: NIH Clinical Center Study Duration: 10 years
RECOVERNOW is A MULTICENTRE PHASE II RANDOMIZED CONTROLLED TRIAL OF EARLY MOBILE TABLET-BASED SPEECH THERAPY FOR ACUTE STROKE PATIENTS WITH APHASIA. Using a novel futility design, investigators will randomize acute care in-patients with stroke to mobile tablet-based speech therapy applications vs the standard of care. Primary outcome is improvement in the Western Aphasia Battery Aphasia (WAB-R) Overall Study Aim: The primary study aim is to determine the futility and potential efficacy of mobile tablet-based speech therapy for post stroke aphasia. Primary Endpoint: The primary outcome measure is change in the Aphasia quotient (AQ) from the WAB-R at 90 days. The WAB-R is a standardized aphasia battery. The AQ is calculated from four language sub-tests measuring spontaneous speech, word comprehension, repetition, and word finding.) Secondary Endpoints: The results of the cost-effectiveness analysis will be expressed as the incremental cost per one-unit improvement in AQ and the incremental cost per one quality-adjusted life year (QALY) gained. Population: 226 participants will be enrolled over 3 years. Males and females, >18 years of age, with diagnosis of acute ischemic/hemorrhagic stroke confirmed by routine head computerized tomography (CT) scan with mild to moderate aphasia. Phase: II Number of Sites: It is anticipated that this will be a multi-center study, with the following facilities participating: The Ottawa Hospital, Ottawa, ON, Foothills Medical Centre, Calgary, Alberta and Toronto Western Hospital. Protocol Therapy: Patients will be randomized 1:1 to receive either tablets with speech therapy apps (intervention group) or standard of care. Study Duration: It is estimated that recruitment will take place over 3 years in the three participating centers. Subject Participation Duration: All patients will be assessed clinically at baseline and Day 90 (+/-10).
In studies of children born at term, language delay at the age of 2 years exhibits a spontaneously favourable course in 30 to 50% by the age of 3 years. In France, there is no recommendation for speech therapy before the age of 3 years. However, for term-born children, parent-implemented language interventions conducted during the third year of life have already shown a positive short-term effect on language skills. In these interventions, a skilled interventionist, generally a speech therapist, teaches parents how to use specific language strategies with their child. The investigators' hypothesis is that such parent-implemented interventions would be particularly appropriate at short and medium term for the improvement of linguistic performances in very preterm children, a population with a high prevalence of early language delay. Currently, there is an opportunity to partly nest an intervention trial in a national prospective population-based cohort of very preterm children, the EPIPAGE (Etude EPIdémiologique sur les Petits Ages GEstationnels) 2 cohort, which has included 5 000 babies born alive in France in 2011. This situation provides considerable methodological advantages.
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>