View clinical trials related to Amyotrophic Lateral Sclerosis.
Filter by:Ten patients with motor neurone disease (MND, also known as amyotrophic lateral sclerosis or ALS) will be successively enrolled to one of two dose levels of IC14 (human chimeric monoclonal anti-CD14) intravenously for four doses. Patients must be within 3 years of MND diagnosis and have adequate respiratory function. Safety, tolerability, immunogenicity, and PK/PD will be measured. To evaluate feasibility of the endpoints, additional endpoints of ALSFRS-R, respiratory function tests, disease biomarkers and patient-reported outcomes will be measured.
This is a study of transplantation of Astrocytes derived from human embryonic stem cells, in patients with Amyotrophic Lateral Sclerosis (ALS). There will be no change in the routine ALS treatment of the patients enrolled into the study. Treatment will be administered in addition to the appropriate standard of care treatment. The study hypothesis is that transplantation of Astrocyte(AstroRx) cells can compensate for the malfunctioning of patients' own astrocytes by restoring physiological capabilities like the reuptake of excessive glutamate, reducing oxidative stress, reducing other toxic compounds, as well as by secreting different neuroprotective factors
During the course of ALS most patients develop swallowing deficits. In this pilot study we investigate if dysphagia in ALS can be improved by Pharyngeal Electrical Stimulation (PES). PES is Communauté Européenne (CE-) certificated and has been approved for treatment of neurological, oropharyngeal dysphagia. During PES, electrical stimuli are applied at the pharynx via a nasogastral tube with the aim of triggering reorganization processes in damaged brain structures. There is evidence of a positive effect of PES in Stroke and Multiple Sclerosis patients.
Patients with rapidly progressive ALS will be assigned to IC14 intravenously on Day 1-4. This 4-day course will be repeated on Days 8-11. Patients will all undergo MR-PET scans at two time points: before treatment onset and after the last treatment cycle. This scan will measure areas of ALS disease activity and assess response to IC14 treatment. MR-PET scans will be compared to historical controls.
The purpose of this research study is to evaluate the safety and effectiveness of Ranolazine, and how well it is tolerated in patients with Amyotrophic Lateral Sclerosis (ALS). Ranolazine is an FDA approved drug that is used for decreasing chest pain.
The purpose of this study is to try to understand why reversals of amyotrophic lateral sclerosis (ALS) and primary muscular atrophy (PMA) take place. The study will enroll patients with ALS or PMA reversals to give saliva samples in order to determine if the ALS or PMA reversal is because of certain changes in the genetic code.
The primary objective of this study is to assess the safety and tolerability, with emphasis on the oral cavity, of ROSF (containing riluzole 50mg) in subjects with amyotrophic lateral sclerosis (ALS) administered twice daily for 12 weeks. Secondary objectives include (1) to record the subject's assessment of any difficulty taking riluzole administered as ROSF and any difficulty taking riluzole in the tablet formulation and (2) to record the relative preference, if any, of subjects and caretakers, for riluzole administered as ROSF vs. the riluzole tablet.
Amyotrophic Lateral Sclerosis (ALS) is a rare lethal neurodegenerative disease involving inflammation. Riluzole, the only drug for ALS, improves median survival by 3 months. This prompts new treatments of ALS. RNS60 is an experimental drug with favorable effects in preclinical studies of neuroinflammation and neurodegeneration. Based on significant efficacy demonstrated in preclinical studies and its excellent clinical safety profile, RNS60 is a promising candidate for a drug to treat ALS. Developing a pharmacodynamic marker will be a first and important step for dose finding and exploration of the mechanism of action in human, and pave the way to trials measuring drug efficacy. The Investigator propose a multicenter, randomized, double-blind, placebo-controlled, parallel group, Phase II trial. The study centers will be located in Italy and at Massachusetts General Hospital (MGH) in Boston. A total of 142 ALS patients will be randomly assigned to RNS60 or placebo (administered by intravenous infusion once/week and inhaled via nebulization every morning for 24 weeks). All participants will also take riluzole (50-mg tablet twice/day). Blood samples for biomarker analysis (protein, RNA) will be collected in the screening period, on day 1, week 4,12 and 24. Both safety and potential therapeutic effects of RNS60 will be also assessed.
To compensate for insufficiency of diagnostic tools, the present study propose to look for the predictive factors of an early fitting by noninvasive ventilation.
Washington University in St. Louis is seeking participants with ALS for a study to determine the half-life of the protein SOD1 in the cerebral spinal fluid. Mutations in the SOD1 gene are known to cause some forms of familial ALS. Researchers are developing a treatment to reduce the level of SOD1 in familial ALS, but need to know more about how long SOD1 stays in the body ("half-life") to help determine if the new treatment is effective.