9 Clinical Trials for Various Conditions
Tinnitus - defined as ringing, humming, or other sounds in the ears or head - is a very common problem for Veterans. Hearing aids that deliver low-level amplification are being used by audiologists to help people with tinnitus who also have normal hearing. However, there is a lack of research evidence showing that this practice is effective. Despite this fact, the practice clearly is spreading. Reports from audiologists in the field as well as research presentations refer to hearing aids being used in this way. Use of hearing aids has been shown to reduce distress from tinnitus for people with hearing loss. Additionally, the use of external sound to help reduce the impact of tinnitus has been shown to be effective. There is clearly a gap in the research regarding the use of hearing aids as a therapeutic method to manage tinnitus when hearing is considered normal. This study will obtain pilot data evaluating people with normal hearing and bothersome tinnitus to find out whether low-level amplification through hearing aids may provide benefit.
This study is designed to pilot an intervention technique to reduce the self-stimulating behaviors seen in individuals with autism spectrum disorders using intervention with ProFoveate pellets. Self-stimulating behaviors like hand flapping, eye blinking, and rocking, can interfere with the individual's ability to interact with their peers. Participants will wear the pellets for four week and measures with taken again. Another group of participants will not get the pellets. Both groups will be tested at the beginning and end of the study. Any variations in self-stimulating behaviors will be documented through parent report, Observational data. The investigators hypothesize that they will see changes in self- stimulating behaviors as a result of the strategic placement of the ProFoveate™ pellets on the ears of one group of the participants.
The purpose of this research is to develop a portable wearable hardware headset using a computer-based software that can establish the optimal stimulation parameters appropriate for medical and consumer environments for individuals with hearing impaired and normal hearing individuals.
Background: - Researchers at the National Institutes of Health give many tests of hearing and balance. These tests can help detect problems that affect hearing or balance. It is important to know exactly how healthy people perform on each of these tests. This information will indicate when a test result is normal and when a test result shows a problem. Researchers also want to determine the best methods for each test. Objectives: - To test different types of hearing and balance tests, and collect information on normal values for each test. Eligibility: - Healthy volunteers between 5 and 80 years of age. Design: * This study will require a single visit to the National Institutes of Health Clinical Center. It will include both screening tests and study tests of hearing and balance. Sometimes, a second visit may be required if a test is designed to measure the same thing on 2 different days. Each visit will last between 2 and 5 hours, depending on the number of tests scheduled per visit. * Participants will have a physical exam and medical history. They will also have basic tests to check for normal hearing and balance. * Participants may have different hearing tests, including the following: * Auditory Evoked Potentials to study how the ears and brain handle sound information. * Auditory Processing Tests to study how a person processes complex sounds like speech in background noise. * Tests of middle ear and inner ear function. * Participants may have different balance and inner ear tests, including the following: * Balance test on a tilting platform. * Different tests to measure how well the eyes, ears, and brain work together to help maintain balance. * Treatment will not be needed as part of this study.
Seniors 65 years of age and older represent one of the fastest growing segments of society with the population doubling within the next 25 years with dramatic rates of mental decline, costing society billions of dollars each year. The proposed research seeks to discover whether relatively short term mental or physical training can enhance gist reasoning, generalize to untrained cognitive areas and modify/strengthen brain function in areas susceptible to aging processes. To identify neuroprotective and non-pharmacological interventions to prevent mental decline and maximize cognitive brain health during the course of the adult lifespan has major public policy implications.
Background: Many disorders of the head and neck can affect a person s hearing; balance; smell; taste; swallowing; voice; or speech. These disorders include cancers and genetic and inflammatory diseases. To find better ways to diagnose and treat these disorders, researchers need to study tissues and other biological samples from people who have them. Objective: To collect biological samples for a repository that will be used for research. Eligibility: People of any age with a disorder of the head and neck that requires the taking of biological samples. The conditions may be any that affect hearing; balance; smell; taste; swallowing; voice; or speech. Design: Part 1: Participants will give permission for their leftover tissue samples to be used for research. These are tissue samples from the head and neck that were collected in the course of routine tests and care or other research studies. Information on each participant s age, diagnosis, and previous treatments will also be collected. Part 2: Some participants may be asked for more samples. All those aged 3 years or older will have a physical exam. They will provide blood and saliva samples. A cotton swab or brush will be used to collect cells from the inside of the cheek. Participants 18 years or older may have additional tests. They may provide nasal secretions: A piece of gelfoam or a sponge will be placed in the nose to soak up secretions for 5 to 10 minutes. They may have biopsies: Small samples of tissue will be cut from the skin and the tissue lining the mouth. Samples may be used for genetic testing.
Background: Researchers want to learn more about head and neck disorders. Understanding these disorders could help them find better treatments. To do this, they are collecting tissue samples for research. Objective: To create a repository of tissue samples and data to better study conditions of the head and neck. Eligibility: People who had or will have tissue samples taken because of a head or neck disorder. They must be ages 3 and older and not pregnant to join Part 2. Design: Participants will be screened with a questionnaire, medical history, and physical exam. Part 1. Participants will give permission for any of their tissue samples leftover from private care or other research protocols to be used. If participants tissue did not contain normal tissue or if they have a condition that suggests a genetic issue, they will be invited to join Part 2. Part 2: Participants will have additional samples collected. These could be: * Blood: Blood is drawn through a needle in the arm. * Cheek swab or brushing: A cotton swab or small brush is rubbed inside the cheek. * Saliva: They rinse their mouth with water and spit into a tube or cup. * Skin biopsy: They are injected with a numbing drug. A biopsy tool removes a small piece of skin. * Mucosal biopsy: They are injected in the mouth with a numbing medication. A small piece of tissue from the inside of the cheek is removed. Participants samples will be used for future research, including genetic testing.
This is an exploratory pilot open-label study to identify the signal changes on fMRI of patients with tinnitus and with temporary suppression of the tinnitus with IV lidocaine. Patients will include those with hearing loss (both unilateral and bilateral) and tinnitus, subjects with normal hearing and tinnitus, and control subjects with normal hearing and no tinnitus. Eligible subjects will have functional and subjective data collected at baseline, receive an IV lidocaine infusion, and have functional and subjective data collected post-infusion for comparison and identification of involved neural networks.
Attention deficit/hyperactivity disorder is a condition characterized by a decreased attention span, hyperactivity, and/or impulsiveness inappropriate for a certain age. Typically, young children have what are known as subtle neurological signs. These are involuntary movements of one part of the body that occur while the child is making a voluntary movement of another part of the body. This is referred to as synkinesis, or overflow movements. These overflow movements disappear during normal development and are usually gone by the age of 10. However, in children with ADHD these overflow movements tend to be more intense and last long after the age of 10. This leads researchers to believe there is an abnormality in the maturation and development of the brain areas associated with motor activity in children with ADHD. Transcranial Magnetic Stimulation (TMS) is a non-invasive technique that gives information about brain function. It is very useful when studying areas of the nervous system related to motor activity (motor cortex, corticospinal tract, and corpus callosum). A magnetic signal given from a special instrument held close to the patient's head stimulates a small area of the brain that controls a few muscles (for example, the muscles that control one finger). Doctors put electrodes (small pieces of metal taped to areas of the body) over the muscle to measure the electrical activity the muscle produces when it makes a movement. When the magnetic signal activates those muscles the electrodes pick up and record the electrical activity of the movement that the muscles make in response to the magnetic signal. Researchers will study normal children and those diagnosed with ADHD using TMS to find out if the clinical abnormalities of ADHD are associated with a delay or abnormality in maturation of areas of the nervous system responsible for motor activity (motor cortex and corticospinal tract).