View clinical trials related to Ataxia.
Filter by:The primary objective of this study is to demonstrate the safety and tolerability of deferiprone in subjects with Friedreich's ataxia (FRDA). The secondary objective is to evaluate the efficacy of deferiprone for the treatment of FRDA, as assessed by a 9-Hole Peg Test (9HPT), Timed 25-Foot Walk (T25FW), Low-Contrast Letter Acuity test (LCLA), International Cooperative Ataxia Rating Scale (ICARS), and Friedreich's Ataxia Rating Scale (FARS). The tertiary objectives are to evaluate the effect of deferiprone on: 1. cardiac function as measured by changes in Left Ventricular Shortening Fraction (LVSF), Left Ventricular Ejection Fraction (LVEF) and Left Ventricular (LV) mass using echocardiogram (ECHO), 2. quality of life using quality-of-life surveys, and 3. functional status using Activities of Daily Living (ADL).
Falls are the largest cause of death in the elderly and those with dementia have even a higher incidence of falling. The purpose of this study is to determine whether listening to the Music of Nolwenn Leroy is effective in fall prevention in those elderly patients who are residents in a Geriatric Nursing Home Facility. The music of Nolwenn Leroy has been shown to be effective in fall reduction in a different setting (Posturographic Changes and Fall Prevention associated with Music Therapy: The Nolwenn Effect (USA ClinicalTrials.gov Identifier: NCT00121693) )with results better than listening to Mozart of any other music.
Episodic ataxia (EA) is a rare genetic disease characterized by episodes of imbalance, incoordination, and slurring of speech. The underlying cause of EA is only partly understood, and currently there are no established treatments. There is also little information about the link between EA's clinical features and its genetic basis. The purpose of this study is to better characterize EA and disease progression. In turn, this may direct the development of future treatments.
The purpose of this study is to reduce the symptoms of OMS by testing rituximab (Rituxan®), to remove B lymphocytes that make antibodies and trigger brain inflammation. Evidence suggests that autoimmune brain inflammation causes the symptoms of OMS. This study of blood and spinal fluid intends to find out what effect rituximab has on OMS and on the spinal fluid B-cells. Rituximab targets and destroys B-cells, which make antibodies that can attack the brain and cause may OMS. It is infused through a vein over a period of several hours. Rituximab has been used widely and studied extensively since its approval in 1997 by the U.S. Food and Drug Administration (FDA) for non-Hodgkin's B-cell Lymphoma (NHL). Today, more than 300,000 patients have received rituximab, and it is part of more than 200 completed, ongoing, or planned clinical trials. Rituximab is not FDA-approved for OMS.
This study will determine whether a drug called idebenone is safe and effective in reducing the level of oxidants that are believed to damage the nervous system and hearts in patients with Friedreich's ataxia. Friedreich's ataxia is caused by an abnormality in the gene that makes a protein called frataxin, which is necessary for the proper functioning of energy-producing parts of cells called mitrochondria. In Friedreich's ataxia, the mitochondria become overloaded with iron, and high levels of harmful compounds called oxidants are formed. These oxidants are believed to damage the cells of the nervous system and hearts of people with Friedreich's ataxia. Idebenone is a man-made drug similar to a naturally occurring compound known as Coenzyme Q10. This study will test whether idebenone can alleviate some of the symptoms of Friedreich's ataxia and slow or halt the progression of the disease. Patients with genetically confirmed Friedreich's ataxia who are between 9 and 18 years of age, weigh between 65 and 175 pounds and can walk 25 feet with or without an assistive device may be eligible for this study. Candidates are screened with blood tests and a review of their medical records. Participants undergo the following tests and procedures: - Medical interview and physical examination. Tests include blood and urine tests, an electrocardiogram, or EKG (recording of the electrical activity of the heart), echocardiogram (ultrasound test showing the pumping action of the heart, thickness of the heart walls, and any valve leakage), and a detailed neurological examination, including maneuvers such as copying a drawing and putting pegs in a board. Patients' parents are asked questions about how they feel their child's disease affects the child's quality of life. - Magnetic resonance imaging (MRI) to examine the heart muscle and blood flow to the heart. MRI uses a magnetic field and radio waves to produce images of body tissues and organs. The patient lies on a table that is moved into the doughnut-shaped MRI scanner, wearing earplugs to muffle loud knocking and thumping sounds that occur during the scanning process. A catheter (plastic tube) is placed in a vein in the child's arm so that a chemical called gadolinium can be injected during the MRI study. Gadolinium brightens areas of the heart, improving the ability to see the heart and blood flow. - Physical medicine and rehabilitation evaluations to test the child's physical functioning. These tests include gait evaluation, measurements of the ability to exert and maintain a constant force, assessment of visual-motor control and fine motor control, aerobic exercise endurance testing, and measurement of the ability of the child's heart and lungs to increase their effectiveness with exercise. - Idebenone/placebo treatment. Patients are given a 6-month supply of either idebenone pills or placebo (pills that look like the study drug but have no active ingredient) to take three times a day. Patients are seen by their primary care physician after 1 and 3 months on the study medication for a brief physical examination. In addition, they have blood and urine tests once a month while on medication to check for any abnormalities. - 6-month examination. After 6 months on the study drug, patients return to NIH to repeat all the tests listed above to determine the effects of idebenone treatment.
Friedreich ataxia, an autosomal recessive condition, ascribed to frataxin gene expansion, has been shown to result from an iron- induced injury to the mitochondrial respiratory chain. Buffering free radicals with short-chain quinones (Idebenone) protects the patients against cardiomyopathy but not CNS involvement. Removing CNS iron should limit the impact of the neurological symptoms of the disease.
Cerebellar disorders are often disabling and symptomatic therapies are limited to few options that are partially effective. It seems therefore appropriate to search for additional approaches. Purkinje cells are the sole output of the cerebellar cortex: they project inhibitory signals to the deep cerebellar nuclei (DCN), which have a critical role in cerebellar function and motor performance. DCN neurons fire spontaneously in the absence of synaptic input from Purkinje neurons and modulation of the DCN response by Purkinje input is believed to be responsible for coordination of movement. Recent evidences support the notion that an increase in DCN excitability may be an important step in the development of cerebellar ataxia and point to the underlying molecular mechanisms: the inhibition of small-conductance calcium-activated potassium (SK) channels, that causes an increase of the firing frequency in DCN, correlates with cerebellar ataxia. The rationale of the present project is that SK channel openers, such as riluzole, may have a beneficial effect on cerebellar ataxia. The researchers propose to perform a pilot study investigating safety and efficacy of riluzole, an approved treatment for amyotrophic lateral sclerosis, as a symptomatic approach in patients with chronic cerebellar ataxia.
This is a pilot/feasibility study designed to investigate the feasibility of treating children with Ataxia-Telangiectasia (A-T) and cancer with regimens nearly as intense as non-A-T patients with cancer would receive.
This study will determine the highest amount of idebenone that can be taken without harmful side effects in children, teenagers, and adults with Friedreich's ataxia, a progressive degenerative disease that affects several body systems. Studies in France and Canada showed that patients with Friedreich's ataxia who took idebenone had a decrease in the size of their left ventricle (main pumping chamber of the heart), which is often enlarged in this disease. It is possible that idebenone may also prevent the progression of nervous system degeneration in Friedreich's ataxia. Patients 5 years of age and older with Friedreich's ataxia may be eligible for this study. Candidates are screened with a blood test and review of their medical records, including genetic studies. Participants undergo the following procedures during a 6-day hospital admission to the NIH Clinical Center: - Placement of an intravenous catheter (plastic tube inserted into a vein) for collecting blood samples after drug administration - Blood and urine tests - Heart examination, including electrocardiogram (EKG), to assess heart function and size. - Idebenone therapy: Patients take three tablets a day (at 7 AM, 1 PM and 7 PM) on days 2, 3 and 4 of hospitalization. Blood samples are collected through the IV tube at 0.5, 1, 2, 4, and 6 hours after the first dose on day 2, then at 1 hour after the first and third doses every day, and then at 1, 2, 4, 8, 12, 24, 36, and 48 hours after the last dose on day 4 to determine how the body uses and eliminates the drug. - Monitoring for drug side effects: Patients have frequent checks of vital signs (blood pressure, pulse, temperature, breathing rate) and a brief physical examination to check for drug side effects from the start of drug therapy on day 2 until at least 43 hours after the last dose on day 4. Patients who experience no difficulties are discharged from the hospital after the sixth day with a 1-month supply of medication to take 3 times a day at home. They are contacted by phone every 2 weeks while taking the medication to check side effects. Blood tests are also done every 2 weeks to check for any abnormalities.
The purposes of this study are to learn about significant life changes for people with Friedreich's ataxia and about patients' experiences with health care providers. Friedreich's ataxia is a rare genetic disorder in which patients experience progressive muscle weakness and loss of coordination in the arms and legs. They may have other complications, such as vision and hearing impairment, dysarthria, scoliosis, diabetes, and heart disease. The study will explore the impact of this chronic progressive illness on transitional life events, such as career choice and marriage, and the role of family members and health care providers-particularly genetic counselors-in helping patients progress through these events. Patients with Friedreich's ataxia who are 18 years of age or older may be eligible for this study. Those enrolled will participate in a 45- to 60-minute interview by phone or in person, in which they will be asked questions about important changes in their lives and their past experiences with health care providers. The interview will be audiotaped.