View clinical trials related to Muscular Atrophy, Spinal.
Filter by:The investigators propose to prepare for clinical trials where SMA patients are asked to join the research effort. The visits will include questions, physical exam, blood drawing, and sometimes X-rays and a skin biopsy. The investigators will use modern computer methods to process the information during which the investigators will plan a clinical trial. Once the clinical trial begins, the investigators will offer SMA patients participation if they meet the criteria for that trial. Identifying an effective SMA treatment is very important because there is currently none. Clinical trials are the only way to decide whether a new treatment works in SMA patients or not.
The purpose of this study is to identify the maximum tolerated dosage of sodium phenylbutyrate in children with spinal muscular atrophy types II or III; and to determine if the drug has an effect on SMN mRNA and protein levels.
The purpose of this study is to identify the maximum tolerated dosage of sodium phenylbutyrate in children with spinal muscular atrophy type I; and to determine if the drug has an effect on SMN mRNA and protein levels.
This is an open label phase I/II clinical trial to assess safety, tolerability and potential effect on SMN mRNA and protein in vivo of a compound in which preliminary evidence supports a potential effect on SMN levels in vitro.
Levetiracetam (Keppra) is used to treat partial onset seizures. Its biological effects suggest it might also be useful in treating 3 aspects of human motor neuron diseases (MNDs) for which no effective therapy exists: cramps, spasticity, and disease progression.
This is a multi-center trial to assess safety and efficacy of a combined regimen of oral valproic acid (VPA) and carnitine in patients with Spinal Muscular Atrophy (SMA) 2 to 17 years of age. Cohort 1 is a double-blind placebo-controlled randomized intention to treat protocol for SMA "sitters" 2 - 8 years of age. Cohort 2 is an open label protocol for SMA "standers and walkers" 3 - 17 years of age to explore responsiveness of efficacy outcomes. Outcome measures will include blood chemistries, functional testing, pulmonary function testing, electrophysiological evaluations, PedsQL quality of life assessment, quantitative assessments of survival motor neuron (SMN) mRNA from blood samples, growth and vital sign parameters. Six centers will enroll a total of 90 patients.
In this project, we will establish the efficient and accurate gene dose determination system by combining the heterodulex analysis and gene dose analysis on DHPLC platform based on various quantitative and multiplex PCR strategies and applying on detecting the carriers- in- risk and patients with spinal muscular atrophy.This method is, therefore, based on the observation that the amount of PCR product generated from each site of amplification is proportional to the amount of starting template. Detection of PCR products is carried out on DHPLC, which provide the sensitivity required for the detection of the single-copy dosage changes.
In this, here we want to present a new method for analysis variation in gene copy number for patients and carriers of SMA. This is a relative quantitation method and, therefore, relies on the inclusion of one or more internal control or reference sequences; quantitation of DNA is relative to this reference sequence of known copy number. A peak height from within a potentially duplicated or deleted target region is amplified simultaneously with a disomic reference region in a multiplex PCR system.
Spinal muscular atrophy (SMA) is a disorder that affects the motor neurons. SMA is caused by a mutation in a part of the DNA called the survival motor neuron (SMN1) gene, which normally produces a protein called SMN. Because of their gene mutation, people with SMA make less SMN protein, which results in the loss of motor neurons. SMA symptoms may be improved by increasing the levels of SMN protein. The purpose of this study is to determine whether a drug called a histone deacetylase inhibitor can increase SMN levels. After undergoing a general medical and neurological evaluation, study participants will donate a blood sample. Researchers will use this sample to measure SMN levels. They will also isolate cells from the blood and treat the cells with various drugs that may increase SMN levels.
OBJECTIVES: I. Evaluate the effects of androgen suppression with leuprolide and androgen replacement with testosterone enanthate on muscle strength in men with Kennedy's disease or other motor neuron disease.