View clinical trials related to Movement Disorders.
Filter by:The purpose of this study is to record electrical brain activity during DBS surgery and after DBS surgery using the Medtronic Activa PC+S deep brain stimulation (DBS) system, a modified DBS pulse generator. The goal of the study is to investigate if the electrical brain activity can help customize DBS therapy.
Sustainable Methods, Algorithms, and Research Tools for Delivering Optimal Care Study (SMART DOCS) was designed to develop and evaluate a new approach (patient-centered outcomes and coordinated-care management [PCCM]) for the diagnosis and treatment of sleep disorders. Specialized and pertinent information and resources regarding sleep disorder management were developed and made available through an online portal, allowing patients to make informed health care decisions, and providers to assist patients in achieving what they feel are the most important goals regarding their care. Half of participants were randomized into the conventional diagnosis and treatment (CONV) arm and the other half into the patient-centered outcomes and coordinated-care management (PCCM) arm. Validated objective and subjective assessment measures were administered at intervals throughout a 13 month participation period in both the CONV and PCCM arms to determine whether the new PCCM approach for sleep medicine results in increased patient satisfaction, quality of care, and improved health outcomes. Qualifying participants were 18 years of age or older and presenting with a new sleep disorder. Patients received no monetary compensation.
Background: There are two basic types of movement disorders. Some cause excessive movement, some cause slowness or lack of movement. Some of these are caused by mutations in genes. On the other hand, dementia is a condition of declining mental abilities, especially memory. Dementia can occur at any age but becomes more frequent with age. Researchers want to study the genes of families with a history of movement disorders or dementia. They hope to find a genetic cause of these disorders. This can help them better understand and treat the diseases. This study will not be limited to a particular disorder, but will study all movement disorders or dementias in general. This study will perform genetic testing to identify the genetic causes of movement disorders and dementia. Today, genetic testing can be done to analyze multiple genes at the same time. This increases the chances of finding the genetic cause of movement disorders and dementias. Objectives: To learn more about movement disorders and dementia, their causes, and treatments. Eligibility: Adults and children with a movement disorder or dementia, and their family members. Healthy volunteers. Design: Participants will be screened with medical history and blood tests. Some will have physical exam. Participants will give a blood sample by a needle in the arm. This can be done at the clinic, by their own doctor, or at home. Alternatively, a saliva sample may be provided if a blood sample cannot be obtained. Participants can opt to send an extra blood sample to a repository for future study. Genetic test will be done on these samples. The samples will be coded. The key to the code will remain at NIA. Only NIA investigators will have access to the code key. Participants can request to receive results of the tests. Participation is generally a single visit. Participants may be called back for extra
Wilson disease is a genetic disorder resulting in copper accumulation in liver, brain and eye. The neurologic complications include dystonic syndrome, which is a prolonged and excessive muscle activation responsible for abnormal postures. Hand dystonia prevents daily life activities such as writing, which is particularly disabling, since writing is the only mean of communication in these patients with significant slurred speech. Treatment is limited and only partially effective. Low frequency (<or=1Hz) repetitive transcranial magnetic stimulation (rTMS) has shown inhibiting properties when applied over the cortex. Since dystonia has been correlated to hyperactivation of the neurons of the somatosensory cortex (SSC), we hypothesize that one single 20-minute session of 1 Hz rTMS applied on left SSC will improve writing of the right dystonic hand, assessed immediately at the end of the session.
The purpose of this study is to explore the relationship between deep brain stimulation implantation site and DTI (diffusion tensor imaging) derived measures for the region and later compare this to the clinical treatment outcomes.
Background: - Cerebral palsy (CP) is the most common motor disorder in children. CP often causes crouch gait, an abnormal way of walking. Knee crouch has many causes, so no single device or approach works best for everybody. This study s adjustable brace provides many types of walking assistance. Researchers will evaluate brace options to find the best solution for each participant, and whether one solution works best for the group. Objective: - To evaluate a new brace to improve crouch gait in children with CP. Eligibility: - Children 5 17 years old with CP. - Healthy volunteers 5 17 years old. Design: - All participants will be screened with medical history and physical exam. - Healthy volunteers will have 1 visit. They will do motion analysis, EMG, and EEG described below. - Participants with CP will have 6 visits. - Visit 1: <TAB>1. Motion analysis: Balls will be taped to participants skin. This helps cameras follow their movement. <TAB>2. EMG: Metal discs will be taped to participants skin. They measure electrical muscle activity. <TAB>3. Participants knee movement will be tested. <TAB>4. Participants will walk 50 meters. <TAB>5. Participants legs will be cast to make custom braces. - Visit 2: - Participants will wear their new braces and have them adjusted. - Steps 1 3 will be repeated. - EEG: Small metal discs will be placed on the participants scalp. They record brain waves. - Participants will have electrical stimulation of their knees and practice extending them. - Participants will take several walks with the braces in different settings. - Visits 3 5: participants will repeat the walking and some other steps from visit 2. - Visit 6 will repeat visit 2.
Background: - Parkinson s disease (PD) affects half a million Americans, causing slow movements, tremors, stiffness, and trouble walking. Currently, these symptoms are measured by physical exam, but this is unreliable and requires an office visit. Researchers want to study a different way to measure PD symptoms, using a home-testing machine called a QMAT device. It can test how quickly someone moves doing different tasks. Researchers will study how this testing compares to physical exam testing and whether the device can detect changes in PD symptoms over time. Objectives: - To see if a home testing device can be used to evaluate Parkinson s disease symptoms. Eligibility: - Adults at least 18 years old with PD. Design: - Participants will have about 22 clinic visits over 5 years. Each visit will take up to 3 hours. Visits will be scheduled along with visits for another study. - At visit 1, participants will learn to use the QMAT device and how to send testing information to the clinic by computer. The device has a computer screen, some buttons, and some pegs. Participants will get a device to take home and any accessories. - Participants will learn 2 QMAT tests. For one, they will press keys as fast as possible. For the other, they will move pegs into holes. The tests will take a total of about 20 minutes. - Participants will take both tests at home, 2 times on the same day each week, once before their medication, once after. - A study coordinator will monitor the participant s computer data and discuss the at-home testing at the clinic visits.
- Justification: Prematurely born children have an increased prevalence of neurodevelopment problems in the first two years. Knowledge regarding the effects of early intervention programs is essential to the follow up of these children and the families. -Hypothesis: The Vojta Therapy Model showed beneļ¬cial effects on motor development outcomes reported by Bayley Sales of Infant Development-Second Edition, in the first 18 months of life on European sample.
Background: - Functional movement disorder (FMD) is a form of conversion disorder (CD). CD is a disorder in which a person has neurological symptoms that do not have a neurological cause. These symptoms can include pain, weakness, dizziness, and fatigue. Some thoughts on CD suggest that it may come from feelings of anxiety that are converted into physical symptoms. Treatment for FMD usually involves stress reduction, family help, and regular doctor s appointments. Therapy interventions, however, have not been well studied. Researchers want to see if people with FMD get better with psychotherapy. They will study two different types of psychotherapy: group therapy and a self-help manual. Objectives: - To test two different types of therapy treatments for FMD. Eligibility: - Individuals at least 18 years of age who have been diagnosed with FMD by a neurologist. Design: - Participants will be screened with a physical exam and medical history. They will also have a psychological exam, and answer questions about their mood and symptoms. - Participants will be separated into three groups. One group will have group therapy. Another will use a self-help workbook designed for people with FMD, and have individual therapy sessions. A third group will just have standard care. During the study, participants will continue to see their regular doctor. - Group therapy participants will meet once a week for 6 months at the National Institutes of Health clinical center. There will be 8 to 10 people per group. Sessions will last 75 minutes. These sessions will work on methods for treating FMD. - Self-help workbook participants will have six individual therapy sessions over 3 to 4 months. They will use the workbooks to learn about and practice methods for treating FMD. - All participants will be evaluated at 3, 6, and 12 months during the study. - At the end of the study, participants will have a final follow-up session with exams and questions similar to the screening exam. They will return to the care of their regular doctor.
The aim of this study is to asses the efficacy and the clinical safety of the transcranial magnetic resonance guided high intensity focused ultrasound system ExAblate 4000, InSightec Ltd. for functional neurosurgery in the treatment of movement disorders. The treatments to be conducted in this study are non-invasive, i.e. without opening the skull, and will create microthalamotomies in specific target areas such as thalamus, subthalamus and pallidum. The data obtained in this study will be used to evaluate the basic safety aspects of this new treatment technology and will serve as a basis for the clinical introduction of MR-guided ultrasound neurosurgery.