39 Clinical Trials for Various Conditions
The purpose of this study is to leverage two sources of real-world data (RWD) to assess the effectiveness of troriluzole after three years of treatment in patients with SCA by comparison to an external control of untreated patients who were followed in a natural history cohort. Real world evidence of effectiveness will be assessed from the RWD sources to examine the treatment effects of toriluzole in SCA out to 3 years. Progression rates of SCA differ by genotype and long-term follow-up is needed to assess for potential efficacy in this rare disease.
Spinocerebellar ataxias are a group of disorders that cause severe disability and can be fatal. There are currently no known disease-modifying treatments available for use, and there is a critical need to find treatments that slow disease progression and allow affected individuals to live more functional lives. Aerobic training show promise as a treatment for these diseases, but it is unclear if training induces neuroplastic changes within the damaged cerebellum to enhance motor learning, or if improvements are primarily caused by changes in leg strength, fatigue, and endurance. It is crucial to understand how the training impacts the brain, and particularly the cerebellum, in order to determine the most effective training regimen. To examine the impact of aerobic exercise on the brain, we propose using eyeblink conditioning, a form of motor learning that is dependent on the cerebellum. We will utilize BlinkLab, a newly developed smartphone application, that overcomes the typical barriers of testing eyeblink conditioning by allowing in-home assessments without the need for expensive equipment. We hypothesize that: 1) individuals with spinocerebellar ataxia will have impaired eyeblink conditioning, and 2) aerobic exercise, but not balance training, will improve eyeblink conditioning in this population. If these hypotheses are found to be true, it would further support that aerobic exercise is able to enhance motor learning in individuals with cerebellar damage. In AIM 1, we will test eyeblink conditioning in individuals with ataxias and follow them over time to see if eyeblink conditioning might be a biomarker for cerebellar ataxia disease progression. We will then use these preliminary results to devise a larger study to further validate eyeblink conditioning as a biomarker for ataxia disease progression. In AIM 2, we will determine the impact of training on eyeblink conditioning. We expect that aerobic training, but not balance training, will enhance eyeblink conditioning in spinocerebellar ataxia. Finally, in AIM 3, we will explore the use of eyeblink conditioning as a biomarker of neuroplasticity.
PRIME-Ataxia is a randomized controlled trial that aims to determine the feasibility and efficacy of an 8-week telehealth intervention of high intensity aerobic exercise prior to balance training compared to an 8-week telehealth intervention of low intensity exercise prior to balance training in people with spinocerebellar ataxias (SCAs). The investigators additionally aim to explore changes in motor skill learning on a novel motor skill task in a sub-group of participants pre and post intervention.
Phase 2b/3 double blind, randomized, placebo-controlled trial to assess safety and efficacy of SLS-005 (trehalose injection, 90.5 mg/mL for intravenous infusion) for the treatment of adults with spinocerebellar ataxia).
The primary objective of this study is to evaluate the safety and tolerability of multiple ascending doses of BIIB132 administered via intrathecal (IT) injection to participants with spinocerebellar ataxia type 3 (SCA3). The secondary objective of this study is to characterize the multiple-dose pharmacokinetics (PK) of BIIB132 administered via IT injection to participants with SCA3.
This is a randomized, double-blind, placebo-controlled Phase 2 study evaluating oral administration of CAD-1883 in the treatment of adults with a genotypic diagnosis of Spinocerebellar Ataxia (SCA). This study offers the opportunity to understand the safety, tolerability, and efficacy of CAD-1883 in the SCA patient population.
The purpose of this study is to examine the differences in cerebral spinal fluid (CSF) and blood of patients with spinocerebellar ataxias and healthy volunteers. The goal of this project is to identify new biomarkers that are useful for characterizing spinocerebellar ataxias and identify targets for treatment or prevention of this condition.
The purpose of this study is to compare the efficacy of Troriluzole (200 mg once daily) versus placebo after 48 weeks of treatment in subjects with spinocerebellar ataxia (SCA).
The primary purpose of this study is to compare the efficacy of BHV-4157 (Troriluzole) 140 milligrams (mg) once daily versus placebo after 8 weeks of treatment in subjects with spinocerebellar ataxia (SCA).
Background: Spinocerebellar ataxia type 7 (SCA7) is a disease in which people have problems with coordination, balance, speech and vision. It is caused by a change in the ATXN7 gene. A mutation in this ATXN7 gene causes changes in eye cells, which can lead to vision loss. There is no cure for SCA7 but researchers are looking for possible treatments. Researchers need more information about SCA7. They want to collect vision and neurology related data from people with SCA7. They want to learn how and what changes in the eye and brain when the ATXN7 gene isn t working properly. Objective: To learn more about SCA7 and its progression. Eligibility: People ages 12 and older with SCA7. Design: Participants will be screened with medical history and genetic testing from a previous National Eye Institute study or their personal physician. Participants will have at least 7 visits over 5 years. They will have 2 visits during the first week of the study. Then they will be asked to come back every year for the next 5 years. Each visit will last several days and will include: * Medical and eye history * Several eye tests: some will include dilating the pupil with eye drops and taking photos or scans of the eyes. * Electroretinography (ERG): Participants will sit in the dark with their eyes patched for 30 minutes. After this, the patches will be removed and contact lenses put into the eyes. They will watch flashing lights and information will be recorded. * Neurological exams: Sensation, strength, coordination, reflexes, attention, memory, language, and other cognitive functions will be tested. * Brain MRI: They will lie in a machine that takes pictures of the brain. * Blood and urine tests * Optional skin biopsy: About 3 millimeters of skin will be removed for more research testing; this is half the size of a pencil eraser.
The purpose of this research study is to investigate how the brain and motor behavior changes both in individuals with spinocerebellar ataxia and healthy individuals, and to assess whether a therapeutic intervention reduces levels of uncoordinated movement and improves motor function in spinocerebellar ataxia (SCA).
The purpose of this study is to learn how Intravenous Immune Globulin (IVIG) will affect Spinocerebellar Ataxia (SCA) symptoms and how it will affect motor and nervous system function in participants Subtypes of SCA to be examined will include SCA types 1, 2, 3, 6, 10 and 11.
The spinocerebellar ataxias (SCAs) are a genetically heterogeneous group of dominantly inherited progressive ataxia disorders. More than 30 different gene loci have been identified so far. The most common SCAs, which together account for more than half of all affected families, are SCA1, SCA2, SCA3, and SCA6. Each of these disorders is caused by a translated CAG repeat expansion mutation. SCA1, SCA2, and SCA3 usually have an onset between 30 and 40, and SCA6 usually begins at the age of 50 to 60. In addition to progressive ataxia, SCA1, SCA2, and SCA3 frequently present with additional non-ataxic symptoms, including parkinsonism. Carbidopa/levodopa was found to have a good therapeutic effect on parkinsonism. The SCA6 used to be considered a pure cerebellar disorder. However, a recent large study on natural history of SCAs found that patients with SCA6 often had nonataxia symptoms, an observation that challenges the view that SCA6 is a purely cerebellar disorder. Parkinsonism in SCA6 was rarely reported, except in a case serial, or a small size study in Korean patients. Dopamine transporter (DAT) is a very reliable dopaminergic neuronal marker. Reduction in DAT density detected by I123 SPECT DaTscanTM in the dopaminergic neuron terminal striatum was reported in one small size study consisting of eight SCA6 patients in Korea. There was also a PET study using different radioligand for DAT in a small group of SCA6 patients in Germany, which found sub-clinical change in DAT density in some patients with SCA6. There has been no study so far in the US on parkinsonism and other non-ataxia spectrum and striatal dopaminergic damage in SCA6, probably because non-ataxia feature of SCA6 hasn't received much attention, and also because DaTscanTM hasn't been clinically available in US until recently. The only two published studies on SCA6 and DAT were from Korea and Germany, which were of small subject size. There has been no treatment available for SCA6 so far. Our hypothesis is that parkinsonism and other non-ataxia spectrum and striatal dopaminergic neurodegeneration are part of the SCA6 disease spectrum.
Investigators expect there will be improvement in walking speed and steadiness after taking Dalfampridine, thereby improving activities of daily living and enhancing social and occupational functions for patients with spinocerebellar ataxia.
This is a preliminary study to determine the safety and efficacy of intravenous immune globulin in treating Spinocerebellar Ataxia. The investigators aim to assess changes in clinical measures of disease severity before and after treatment.
Spinocerebellar ataxias (SCA) are genetic neurological diseases that cause imbalance, poor coordination, and speech difficulties. There are different kinds of SCA and this study will focus on types 1, 2,3, and 6 (SCA 1, SCA 2, SCA 3 , also known as Machado-Joseph disease and SCA 6). The diseases are rare, slowly progressive, cause increasingly severe neurological difficulties and are variable across and within genotypes. The purpose of this research study is to bring together a group of experts in the field of SCA for the purpose of learning more about the disease. The research questions are: 1. How does your disease progress over time? 2. What are the best ways to measure the progression? 3. Do some genes, other than the gene that is abnormal in your disease, have any effect on the way the disease behaves? This is a nationwide study and we expect that 800 patients will participate all over the USA. The participants will be in the study for an indeterminate period of time. Study visits will be done every 6 or 12 months depending on the participating site.
Spinocerebellar ataxia (SCA) is a group of inherited disorders characterized by cerebellar degeneration leading to imbalance, incoordination, speech difficulties and problems with walking. Recently, individual case reports have suggested that varenicline, a drug used in smoking cessation, produces substantial improvement in patients with several inherited ataxias. A modest response was noted in 5 patients with SCA, suggesting that it is potentially efficacious in this disorder as well. Although this agent is available for off-label use, the severe side effects noted with its use and the lack of long-term toxicity data demand that it be systematically assessed. The present study will test whether varenicline is safe and potentially efficacious in a heterogeneous cohort of adults with SCA.
This study will evaluate the side effects and tolerability of the drug lithium in patients with spinocerebellar ataxia type I (SCA1) an inherited disorder caused by loss of nerve cells in parts of the brain. Symptoms include ataxia (difficulty walking) and loss of muscle coordination and strength. Recent studies suggest that lithium may be helpful in treating some SCA1 symptoms. People between 18 and 65 years of age with SCA1 who have only difficulty walking or who have difficulty walking as well as tremor, hand incoordination or speech problems, may be eligible for this study. Participation requires three hospital admissions at the NIH Clinical Center and one outpatient visit. Participants undergo the following tests and procedures: Admission 1 (2-6 weeks) * Medical history, physical examination, blood and urine tests, electrocardiogram. * Evaluation of SCA1 symptoms (balance, walking, dexterity, tremor, memory, mood and concentration). * Monitoring of liquid intake and output (urine) and weight changes. * Lithium treatment Start treatment and remain in hospital until the blood level of the drug is stabilized; continue treatment at home after hospital discharge. Admission 2 (2-4 days, 4 weeks after hospital discharge). * Repeat of some or all of the procedures done at the first admission. * Continue lithium in hospital and at home after discharge, with local physician checking laboratory values as needed. Admission 3 (2-4 days, 8 weeks after Admission 2). * Repeat of some or all of the procedures done at other admissions. * Stop lithium. Outpatient Visit (4 weeks after Admission 3) * Evaluation of SCA1 symptoms. * Blood and urine tests.
Measuring the various difficulties patients with spinocerebellar ataxias (SCA) report in an accurate manner is important to be able to test any therapy that may be developed. As basic research identifies some therapy of this type, clinicians are planning studies that can either prove or disprove that such treatments actually have an effect. Walking problems and problems with eye movements that can give rise to visual complaints are common in the SCA's. Existing neurological scales such as the "SARA" are based on the usual neurological examination items that can carry a degree of subjective bias. Also the intervals between numbers on such scores often do not carry the same "weight" so that the difference between a score of 1 and 2 may not be equal to difference between 2 and 3. Lastly, such scales done in the clinic setting capture only a brief period of a patient's day. We propose that examination of home based gait monitoring, timed tests of motor function and quantitative measures of visual problems in patients with SCA are more useful in measuring the disability in these patients.
OBJECTIVES: I. Clinically evaluate members from families with a dominantly inherited ataxia and collect blood, skin and muscle samples for detailed molecular studies. II. Perform detailed clinical evaluations on patients with recessively inherited ataxias.
This research study is testing body-worn sensors to measure movement during simple tests of coordination, in order to evaluate the progression and severity of Spinocerebellar ataxia.
The primary aim is to show balance training improves DCD individual's ability to compensate for their activity limitations, but does not impact disease progression. The second aim is to demonstrate aerobic exercise improves balance and gait in DCD persons by affecting brain processes and slowing cerebellar atrophy.
The purpose of this study is to create a repository for cerebellar ataxia and nucleotide repeat diseases in order to fully investigate the genetic and phenotypic presentations of both.
Spinocerebellar ataxia type 10 (SCA10) is a hereditary ataxia whose ancestral mutation occurred in East Asia. The mutation is likely to have migrated during peopling of American continents from East Asia. We found a specific rare DNA variation associated with SCA10. We test whether this variation played a key role in the birth and subsequent spreading of SCA10 mutation.
This research study is testing body-worn sensors to measure movement during simple tests of coordination, in order to evaluate the progression and severity of ataxia.
The investigators plan to fill the gap between the current state of clinical trial readiness and the optimal one for SCA1 and SCA3, which are fatal rare diseases with no treatments. Through US-European collaborations, the investigators will establish the world's largest cohorts of subjects at the earliest disease stages, who will benefit most from treatments, validate an ability to detect disease onset and early progression by imaging markers, even prior to ataxia onset, and identify clinical trial designs that will generate the most conclusive results on treatment efficacy with small populations of patients.
24 adults, between the ages of 18 and 75 years, with cerebellar ataxia will be enrolled in a 12 week trial of BHV-4157 for treatment of ataxia. BHV-4157 is a pro-drug of riluzole (which is currently FDA-approved for ALS, Lou Gehrig's disease). There will be 5 visits to UCLA required--Screening when general and neurological examination, blood and urine testing, ECG, and questionnaires will be administered; Baseline when general and neurological examination and questionnaires will be administered and study drug dispensed; Week 4 and Week 12 when general and neurological examination, blood and urine testing, ECG, and questionnaires will be administered; 2 weeks after finishing study drug when general examination and blood testing will be completed. There is an option for a 36 week extension of the study drug trial.
The objectives of this study are: * To validate the inter-rater and intra-rater reliability of a new scale for the assessment of ataxia and neurologic dysfunction (STAND) * To assess common constructs and correlation between STAND subscale items.
Spinocerebellar Ataxia (SCA) refers to a family of genetic diseases that cause progressive problems with gait and balance, as well as other debilitating symptoms. This is a randomized controlled pilot study to test a novel therapeutic intervention that uses noninvasive magnetic brain stimulation to improve functional outcomes in patients with SCA. The study will include quantitative evaluations of gait, balance, and brain physiology to examine possible objective end-points for a future, larger multi-site clinical trial. The investigators anticipate that patients receiving the real intervention will show a functional gain.
The aim of the research is to improve motor function in people with cerebellar ataxia by using neuroimaging methods and mental imagery to "exercise" motor networks in the brain. The relevance of this research to public health is that results have the potential to reduce motor deficits associated with cerebellar atrophy, thereby enhancing the quality of life and promoting independence.