View clinical trials related to Amyotrophic Lateral Sclerosis.
Filter by:Background: Neurodegenerative disorders can lead to problems in movement or memory. Some can cause abnormal proteins to build up in brain cells. Researchers want to understand whether these diseases have related causes or risk factors. Objective: To test people with movement or thinking and memory problems to see if they are eligible for research studies. Eligibility: People ages 18 and older with a neurodegenerative disorder associated with accumulation of TDP-43 or Tau proteins Design: Participants will have a screening visit. This may take place over 2-3 days. Tests include: Medical history Physical exam Questions about behavior and mood Tests of memory, attention, concentration, and thinking Movement measurement. The speed at which participants can stand up from a chair, tap their finger and foot, and walk a short distance will be measured. Some movements will be videotaped. They will be videotaped while they speak and read a paragraph. Blood tests. This might include genetic testing. Lung and breathing tests MRI. They will lie on a table that slides into a cylinder that takes pictures of the body. Some participants will get a dye through IV. Electromyography. A thin needle will be inserted into the muscles to measure electrical signals. Nerve tests. Small electrodes on the skin record muscle and nerve activity. A small piece of skin may be removed. A skin or blood sample may be taken to create stem cells. Optional lumbar puncture. A needle will be inserted into the space between the bones of the back to collect fluid. If participants are not eligible for current studies, they may be contacted in the future.
A prospective and retrospective cohort study of about five years will be performed on blood and cerebrospinal fluid samples taken for diagnostic reasons from recruited patients within the Neuromed Neurology Unit. Subjects with other chronic neurodegenerative diseases such as Amyotrophic lateral sclerosis (ALS), Alzheimer's disease (AD) and Parkinson's disease (PD), and healthy subjects subjected to blood sampling and / or lumbar puncture for clinical reasons will be recruited As control groups.
The objective is to compare the efficacy and safety of masitinib in combination with riluzole versus matched placebo in combination with riluzole for the treatment of Amyotrophic Lateral Sclerosis (ALS).
The primary objectives of this study are to determine the safety and efficacy of Amivita, a compound of amino acids and vitamines in patients with Amyotrophic lateral sclerosis (ALS)ALS. The secondary objectives are to measure quality of life before and during intervention. This is a self-controlled clinical trial. Twenty patients in our ALS center who are already receiving riluzole or other treatments but the condition is worsening will receive treatment for 1o months. The evaluating investigators will be blinded to treatment assignment. Primary outcome measures will be adverse events, the ALS Functional Rating Scale-Revised (ALSFRS-R), and survival. Subjects will also be assessed at enrollment and at study end for weight loss, forced vital capacity (FVC), quality of life and grip strength.
Individuals suffering from tetraplegia as a result of cervical spinal cord injury, brainstem stroke, or amyotrophic lateral sclerosis (ALS) cannot independently perform tasks of daily living. In many cases, these conditions do not have effective therapies and the only intervention is the provision of assistive devices to increase independence and quality of life. However, currently available devices suffer from usability issues and are limiting for both the patient and caregiver. One of the most progressive alternative strategies for assistive devices is the use of brain-computer interface (BCI) technology to translate intention signals directly from sensors in the brain into computer or device action. Preclinical primate research and recent human clinical pilot studies have demonstrated success in restoring function to disabled individuals using sensors implanted directly in motor regions of the brain. Other preclinical primate research has demonstrated effective intention translation from sensors implemented in cognitive regions of the brain and that this information complements information from the motor regions. The current proposal seeks to build on these studies and to test the safety aspects related to implanting two sensors, each a microelectrode array, into both the motor and cognitive regions of the brain in motor impaired humans. Secondary objectives include feasibility evaluation of the complementary sensors in their ability to support effective assistive communication.
Amyotrophic Lateral Sclerosis (ALS) is a rare disease with a worldwide incidence of 2-3 cases per 100,000 individuals/year and it is characterized by progressive neurodegeneration of motor neurons. When motor neurons degenerate the ability of the brain to initiate and control muscle movement is lost. ALS manifests in two forms: Familiar ALS (FALS) with inherited risk genotypes, accounts for only 10% of cases and sporadic ALS (SALS) without apparent heritability accounts for 90% of cases. ALS can occur in both female and male subjects at any age but is more common in people aged over 40. Although the molecular mechanism underlying the pathogenesis of ALS is still under investigation, recent research has revealed that diseases affecting motor neurons may be associated to alterations of RNA metabolism and biogenesis of small non-coding micro RNAs (miRNAs). miRNAs are circulating molecules, whose expression profiles are widely described to have an important potential in monitoring the progression of a disease, to promote the development of more targeted therapies and/or to determine the effectiveness of treatments. Altered patterns of specific miRNAs expression have been described in several pathological conditions. Evidence shows a significant reduction in the levels of certain miRNAs also in patients with ALS. Among others, miRNA-218 has been described to play a critical role in the onset of motor neurons differentiation and in establishing cell identity and fate. Changes in the levels of miRNA-218 in the serum of ALS patients may potentially provide useful tools to determine the possible association with this disease and to candidate it as indicator of disease progression.
Approximately 21 subjects with amyotrophic lateral sclerosis (ALS) will be randomized (6 to 1) to receive by mouth seven morning doses of CC100 or placebo for 7 days. Subjects are required to stay in the Clinic for approximately 9 hours following the first and last dose. Subjects will also have a mid-week clinic visit and will be contacted by phone within 3 to 5 days after the last dose. Funding Source - FDA OOPD
To establish diagnostic tools to make an accurate clinical and pathological diagnosis of patients with clinical FTLD syndromes
The study aims to evaluate primarily safety of two injections of autologous mesenchymal stem cells in Amyotrophic Lateral Sclerosis patients. Secondary outcomes of efficacy will also be evaluated
Amyotrophic lateral sclerosis (ALS) is a neurodegenerative disease affecting the central and peripheral motor neurons, characterized by the rapidity of its evolution (median survival of 3 years). The pathophysiology of the disease is still poorly understood. Neuronal death results from several cellular mechanisms entangled, including mitochondrial dysfunction. The absence of diagnostic marker causes a significant delay in diagnosis, on average a year. On the other hand, the wish biomarker is important for therapeutic trials. Recently, MRI sodium (23Na) demonstrated its importance to detect noninvasively sodium accumulations associated with neuronal suffering. This neuronal pain can be caused by mitochondrial dysfunction causing the accumulation in the sodium and calcium cell causing neuronal death. These studies were conducted in multiple sclerosis, Alzheimer's disease, Huntington's disease, stroke and brain tumors. They demonstrated that sodium MRI could be an effective and sensitive biomarker for detecting and quantifying neuronal degeneration. The goal of this study is to assess neuronal damage noninvasively by MRI sodium in amyotrophic lateral sclerosis.