View clinical trials related to Spinocerebellar Ataxias.
Filter by:Design: Phase II-III, double-blind, parallel, placebo controlled randomized Clinical trial Background: Spinocerebellar ataxia type 3 (SCA-3) is an autosomal dominant adult-onset neurodegenerative disorder for which there is no current treatment. Patients will invariably become dependent from others and unable to walk during the disease course. Hypothesis: Lithium Carbonate is safe and effective in treating neurological symptoms and improving quality of life of patients with SCA3. Outcomes: Primary - Phase 2 - To assess safety and tolerability of Lithium Carbonate in patients with SCA3 after 6 months of follow-up - Phase 3 (if Phase II study shows safety of therapy) - To assess efficacy of Lithium Carbonate in patients with SCA3 through the Neurological Examination Score for SCA 3 (NESSCA) after 12 months of follow-up . Secondary 1. - To assess efficacy on neurological function, ataxic, depressive and quality of life scores of Lithium Carbonate in patients with SCA3 through the Scale for the Assessment and Rating of Ataxia (SARA), 9-Hole Peg Board test, 8m walking time, PATA repetition rate, Click Test, SCA Functional Index (SCAFI), Composite Cerebellar Functional Score (CCFS), Beck Depression Inventory, Barthel Index and WHOQol after 6 and 12 months of follow-up. 2. - To assess the effect of Lithium Carbonate in peripheral levels and expression of treatment biomarkers (BDNF, NSE, HDAC, GSK-3Beta) Study Duration: 12 months - Final analysis of phase 2 (safety study) at 6 months with continuous monitoring until the end of phase 3 (efficacy study). - Preliminary analysis of efficacy on ataxia scales at 6 months of study and final analysis of phase 3 at 12 months. Obs: A futility analysis will be performed after 12 months of therapy if no statistically significant difference between groups were found. This analysis will define if the study will continue until 18 or 24 months of follow-up or will be ended at 12 months. Location: Hospital de Clínicas de Porto Alegre Subjects: 60 molecularly diagnosed SCA3 patients from the outpatient unit of the Medical Genetics Service of Hospital de Clínicas de Porto Alegre Intervention: Lithium Carbonate tablets of 300mg. Starting dose will be 300mg/day with drug titration during 49 days or until achieving the defined target lithium serum level of 0.5 to 0.8 mEq/L
The spinocerebellar ataxias (SCAs) are a clinically and genetically heterogeneous group of autosomal dominantly inherited progressive ataxia disorders. It is estimated that there are 30,000 individuals in the European Community that directly descend from individuals affected by a SCA disorder and thus carry a 50% risk of having inherited an SCA mutation. These at risk individuals provide a unique research opportunity to prospectively study the presymptomatic phase of SCA disorders and to identify the earliest and most sensitive clinical signs and biological markers that herald the onset of the illness. This information is of critical importance for the development of future therapeutic interventions aimed at postponing the clinical onset of ataxia. We therefore propose to perform a prospective observational study of individuals at risk for the most common SCA disorders, SCA1, SCA2, SCA3 and SCA6 (RISCA). It is our aim to answer the following questions: (1) What is the incidence of disease manifestation in mutation carriers? (2) Which clinical signs precede the onset of manifest ataxia in SCA1, SCA2, SCA3 and SCA6? (3) What are the prevalence and incidence of preceding signs? (4) Are the prevalence and incidence of preceding signs affected by genotype, gender, age, estimated time until disease manifestation and repeat length? (5) Does the presence of certain preceding signs predict the manifestation of ataxia ? (6) Are there MRI alterations that precede the onset of ataxia? It is planned to enroll 480 study participants and to follow them at regular intervals over six years. At each visit, study participants are asked in a structured interview for a number of predefined clinical signs that potentially precede the onset of ataxia. In addition, the following self-assessment scales will be applied: Pittsburgh Sleep Quality Index (PSQI), Diagnostic Criteria for Restless Legs Syndrome, Patient´s Health Questionnaire (PHQ-9). All study participants will undergo a physical examination including the Scale for the Assessment and Rating of Ataxia (SARA). Study participants will further perform the SCA Functional Composite (SCA-FC) which is a comprehensive measure of functional capacity based on results in quantitative tests related to gait (8m timed walk), speech (PATA rate) and hand function (9 hole pegboard). In a subset of study participants, we will record eye movements and obtain volumetric MRIs. The study will also be used to collect and store blood and urine samples for proteomic and gene expression studies. RISCA is conducted by the Ataxia Study Group (ASG). It relies on the network structure created by the EUROSCA project.
To evaluate the efficacy and safety of KPS-0373 in patients with SCD.
The purpose of this study is to determine safety and tolerability of the treatment with lithium in Spinocerebellar Ataxia 2. Moreover, clinical symptoms, neuronal loss, quality of life and depressive symptoms, will be considered to further investigate the effect of lithium therapy.
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.
To evaluate the efficacy, safety and pharmacokinetics profile of KPS-0373 in patients with SCD
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.
The autosomal dominant spinocerebellar degenerations are a highly heterogeneous, clinically and genetically, group of rare diseases and of severe evolution. So far, the responsible genes for less than 50% of the cases are known and because of their rarity, there are no phenotype-genotype correlations and well-defined disease history. The aims of the project are to develop and validate quantitative tools of the cerebellar syndrome and of the spasticity, to establish links between the phenotype and the result of the molecular analysis, to identify new loci/genes responsible for these disorders, and to establish the natural history of the disease according to the genotype. To this end, a prospective and multicentric study is proposed for recruiting and evaluating, clinically, a cohort of 225 patients; 150 of them are already followed-up in the centers involved. A DNA collection will be set up in order to search for the implication of new loci and genes. A clinico-genetic database will be set up combining data from successive clinical evaluations and those of genotyping. This strategy will allow access to genetic counselling and molecular diagnosis (positive, presymptomatic or prenatal diagnoses), based on a rational strategy from phenotype-genotype correlations and the information concerning the relative frequency of the genes. The detailed description, with the help of new evaluation tools and of the follow-up of the natural history of the disease according to the genotype, constitutes a crucial step in the design of therapeutical trials in these orphan disorders. Furthermore, the regular follow-up by specialized centers will allow better care of the patients.
This study will examine whether high-dose intravenous immunoglobulin (IVIG) is safe and effective for treating cerebellar ataxia-degeneration of the cerebellum, the part of the brain responsible for coordinating muscle movements and balance. The disease causes a slowly progressive impairment of speech and balance, with patients often developing slurred speech, tremor, clumsiness of the hands, and walking difficulties (ataxia). IVIG is derived from donated blood that has been purified, cleaned and processed into a form that can be infused. IVIG is an immune suppressant that is routinely used to treat other neurological conditions. Patients 18 years of age and older with hereditary (genetic) or sporadic (unknown cause) cerebellar degeneration may be eligible for this 5-month study. They must have evidence of an immune component to their condition, such as gluten sensitivity or antiganglioside antibodies. Candidates will be screened with a neurological examination, a review of medical records and possibly blood tests. Participants will be randomly assigned to receive infusions of either IVIG or placebo (an inactive substance) through an arm vein once a month for two months. The infusions will be given in the hospital in doses divided over 2 days, each lasting 6 to 10 hours. Before the infusions, patients will undergo ataxia assessments through tests of coordination and balance that may involve finger tapping, walking in a straight line, talking, and eye movements. When the treatment is finished, patients will be followed in the clinic once a month for 3 months for blood tests repeat ataxia assessments to evaluate the effects of treatment.