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NCT07322003
The goal of this clinical trial is to learn if the drug pridopidine works to treat amyotrophic lateral sclerosis in adults. It will also help to learn about the safety of pridopidine. The main question it aims to answer is: Does pridopidine slow disease progression of ALS? Researchers will compare pridopidine to a placebo (a look-alike substance that contains no drug) to see if pridopidine works to treat ALS. Participants will: Take pridopidine or a placebo by mouth every day for 48 weeks. Afterwards, all participants will take pridopidine for another 48 weeks. Visit the clinic once every 1-3 months for checkups and tests
NCT05104710
The specific aims of this study are to: 1. Determine if a painless and quick measurement of muscle activity using surface electrodes can help with the diagnosis of ALS. Specifically, we ask if a measure of intermuscular coherence (IMC-βγ), when added to current diagnostic criteria (Awaji criteria), can differentiate ALS from mimic diseases more accurately and earlier than currently possible. 2. Characterize IMC-βγ in neurotypical subjects by age, sex, race, and ethnicity. 3. Follow a cohort of ALS patients longitudinally to determine if IMC-βγ changes with ALS disease progression and whether such changes correlate with functional and clinical scores, or survival.
NCT07023835
Usnoflast Neuromuscular Investigation for Treatment Efficacy in Amyotrophic Lateral Sclerosis
NCT07357428
The Connect-One Study is an early feasibility study to obtain preliminary device safety information for the Connexus Brain-Computer Interface (BCI). The Connexus BCI is intended to be used as: (1) an assistive communication device to decode imagined language correlates and speech for patients with impaired communication as a result of severe loss of voluntary motor control; and (2) to provide control of computer devices for individuals with severe loss of voluntary motor control of the upper extremity.
NCT07071935
Amyotrophic lateral sclerosis (ALS) is a disease that causes weakness of the muscles of the body. The disease can eventually lead to severe breathing problems, which is the most common cause of death from ALS. The treatment for breathing is non-invasive ventilation (NIV). It is a machine that helps a person breathe by pushing air in and out of their lungs through a mask worn over the face. Research has shown that NIV can improve the quality of life and survival of someone with ALS. Unfortunately, NIV is not equally beneficial for everyone. The investigators do not yet know the best time or method for starting NIV in ALS. Europe and Canada allow starting NIV much earlier in ALS than the United States. Current recommendations for starting NIV are based on the opinion of experts rather than large research studies. Medical insurance companies will not cover NIV until significant breathing weakness occurs. After NIV is started, there is no evidence-based guidance on the best way to adjust NIV to benefit patients as much as possible. Some patients have difficulty tolerating NIV, but it is not clear how to identify these individuals ahead of time. The investigators have created a new prediction tool that can identify patients at high risk of breathing problems within the next 6 months. This may help the study team identify who is more likely to benefit from starting NIV early. The investigators have published a paper that shows that NIV helps people with ALS live longer. This paper also showed that patients get more benefit with use NIV for at least 4 hours per day. The investigators published another paper that measured a gas called carbon dioxide (CO2), which goes high if someone's breathing is weakened. This paper showed that patients with ALS may live longer when CO2 levels are lowered using NIV. The investigators also have data suggesting that certain characteristics may predict who is less likely to use NIV at least 4 hours per day. In this study, the investigators will collect pilot data on starting early NIV in individuals with ALS who do not yet meet insurance criteria for covering NIV. The research team will first use their previously published prediction tool to identify patient risk. Then, subjects would be randomized to start early NIV or to usual care. The usual care group would eventually start NIV as would occur if the participants were not in the study. The purpose of this study is to collect data to help the investigators plan a larger randomized clinical trial. This study has 4 objectives. First, the project aims to identify individuals who would benefit from earlier NIV. The research team will use the original prediction tool to identify risk of severe breathing problems within the next 6 months. Second, the project aims to show that it is feasible to start NIV early. Third, the project aims to gather data on the effect of randomization on symptoms, CO2 levels, and outcomes. Fourth, the project aims to identify traits that may make someone less likely to use NIV.
NCT04715399
The aim of this study is to create a repository of both cross-sectional and longitudinal data, including cognitive, linguistic, imaging and biofluid biological specimens, for neurodegenerative disease research and treatment.
NCT05370079
Autoimmune encephalitis (AE) and paraneoplastic neurological syndromes (PNS) are rare disease that could be difficult to diagnose. So it necessary to obtain numerous sample from different disease to develop more specific diagnosis kit It could be possible through the characterisation of new genetic biomarkers.
NCT07334743
Rationale. ENGRAILED1 (EN1) is under consideration as a therapeutic approach for amyotrophic lateral sclerosis (ALS). To assess EN1 target engagement in patients, we aim to identify EN1-responsive biomarkers suitable as Prentice-style surrogate endpoints. We will discover candidates by RNA-seq of neuron-derived extracellular vesicles (NVEC) immuno-isolated from blood. Establishing such biomarkers would enable and de-risk early-phase (I/II) EN1 trials. Primary endpoint. Discovery: RNA-seq identification of circulating NVEC-borne biomarkers that differ between sporadic ALS patients and healthy controls. EN1 modulation: Demonstration that these biomarkers are modulated by EN1 in En1+/- mouse models and in ALS patient iPSC-derived motor neurons. Design. Prospective cohort, N=60 (30 sporadic ALS; 30 healthy controls matched on age/sex). Population. Adults undergoing diagnostic work-up for suspected sporadic ALS; healthy volunteers without neurological disease. Key procedures and timeline. Baseline (M0, inpatient): ALSFRS-R, MRC, hand dynamometry, eye-movement recording (MOC); NCS/EMG (NUMIX), TMS/MEP with cortical excitability; neuropsychology; brain \& spinal MRI; pulmonary function testing; CSF (10 mL) and blood (15 mL) for clinical labs and research (NVEC immunocapture → RNA-seq; proteomics). Follow-up: M6 clinic visit (repeat clinical/electrophysiology/neuropsychology/PFTs as per care) with blood (15 mL); additional routine follow-ups at M12, M18, M24 (clinical; MOC at M12 and M24). Controls: single visit with blood (3×5 mL EDTA) and cortical excitability; brain MRI for targeting. Sample size. 60 participants total (30 ALS, 30 controls).
NCT06578195
The ALL ALS Clinical Research Consortium is establishing research to collect a wide range of samples, clinical information and measurements from Amyotrophic Lateral Sclerosis (ALS) symptomatic, ALS gene carriers and control cohorts. This consortium is being funded by the National Institutes of Health/National Institute of Neurological Disorders and Stroke (NIH/NINDS) and managed by two clinical coordinating centers (CCC) at Barrow Neurological Institute and Massachusetts General Hospital. The clinical sites are distributed across the country, and led by a group of collaborative principal investigators. Once data and samples are collected and harmonized, it will be made available to research community for future research into ALS and related neurological diseases. ASSESS protocol is specific for symptomatic ALS and control participants. This protocol includes both on-site and off-site(remote) participants. The participants will be followed for 24 months (2 years), and will include collection of medical history, clinical outcomes, and blood samples once in 4 months. Additionally, the participants will complete patient reported outcomes and speech recordings once a month. Participants who are coming into clinic may also provide optional Cerebrospinal Fluid (CSF) samples.
NCT00415519
The primary objective of this study is to evaluate the efficacy of 60mg of MCI-186 via intravenous drip once a day in patients with ALS whose severity is classified as grade III, based on the changes in the revised ALS functional rating scale (ALSFRS-R) scores after 24 weeks administration in double-blind, placebo-controlled manner. And in addition, this study will be performed to examine the safety of MCI-186 to ALS patients who met severity classification III.
NCT00424463
This is a long-term, double-blind, placebo-controlled study of MCI-186 to treat ALS. This study is the long-term extension of Study NCT00330681; Study NCT00330681 is a Phase 3, randomized, double-blind, placebo control, parallel assignment, 24-week study in the treatment of ALS. The objectives of this study are to assess the efficacy and safety of long-term intermittent therapy with 60 mg MCI-186 to ALS patients.
NCT07295990
This study is testing a tongue exercise program for people living with ALS to see if it can help support speech and swallowing. All participants will receive the treatment, and researchers will measure changes over time by comparing each person's results to their own earlier results. People who join the study will have two in-person visits, one virtual visit, and four weekly telehealth sessions with a speech-language pathologist. During these sessions, participants will practice tongue resistance exercises, complete speech and swallowing tasks, and answer surveys about their experience. They will also use a small device at home to measure tongue strength and swallowing. The exercise program involves pressing the tongue against a device several times a day, five days per week, for five weeks. Researchers want to learn if this program is safe, practical, and helpful for people with ALS.
NCT06903286
This study will evaluate the long-term safety and efficacy of participants enrolled in SPG302-ALS-101 with Amyotrophic Lateral Sclerosis (ALS)
NCT06215755
The primary purpose of this study is to evaluate the safety and tolerability of VRG50635 in participants with ALS.
NCT07187388
The goal of this clinical trial is to evaluate the impact of non-invasive electrical stimulation, when placed on the facial muscles can reduce facial pain and improve jaw mobility, and chewing in individuals with Amyotrophic Lateral Sclerosis (ALS) and Primary Lateral Sclerosis (PLS). The secondary goal is to evaluate the impact of non-invasive electrical stimulation on patient reported difficulty performing oral hygiene tasks in individuals with ALS and PLS. Participants will attend one in-person clinic visit and participate in one telephone interview 24 hours after the treatment. The clinic visit will include pre-intervention assessments, a single 30-minute treatment of electrical stimulation followed by post-intervention assessments. The assessments will include a self-rating of jaw and facial pain, a range of motion test where participants will be asked to open their jaw as wide and as far to the side as possible, and a chewing efficiency test using a saltine cracker. Twenty-four hours later, participants will receive a follow-up phone call to self-rate their facial pain and report any difficulty performing oral hygiene tasks. The treatment consists of a single 30-minute electrical stimulation session. Electrode pads will be placed on the participant's facial region, specifically over the masseter muscle belly and the TMJ area, while the participant is seated comfortably. The pads will be connected to an FDA-approved electrical stimulator, and the current will be adjusted to the participant's comfort level. Once set, the participant will remain seated for 30 minutes. At the end of the session, the stimulator will be turned off and the electrode pads removed.
NCT05724173
The purpose of this study is to obtain preliminary device safety information and demonstrate proof of principle (feasibility) of the ability of people with tetraplegia to control a computer cursor and other assistive devices with their thoughts.
NCT02567136
The purpose of the study is to determine if we are able to find one or more biomarkers of Amyotrophic Lateral Sclerosis (ALS) and Primary Lateral Sclerosis (PLS) using magnetic resonance imaging (MRI) scans at different levels, 3 tesla (3T) and 7 tesla (7T). A biomarker is a measurable characteristic that can be used as an indicator of a particular disease state. Identifying biomarkers of a disease can lead to a better understanding of the disease as well as improved treatments. This study will enroll patients with ALS, PLS, and healthy controls.
NCT07235111
The study aims to use 'omics' sciences, employing the most advanced technologies currently available, in order to identify pathogenic genomic variants, proteins and/or altered molecular pathways in neurodegenerative diseases and to obtain a new and more complete characterisation of subjects affected by the neurodegenerative diseases under study. Thanks to the integration of genomic, gene expression (transcriptomic and epigenomic), protein and metabolic data and clinical data, the study also aims to identify new markers for the diagnosis, prognosis, also in terms of response to therapy, and monitoring of neurodegenerative diseases. The study involves the enrolment of at least 1.200 individuals with neurodegenerative disease.
NCT06493279
The goal of the study aims to evaluate the safety and tolerability of a single intrathecal injection of RJK002 in subjects with amyotrophic lateral sclerosis (ALS), and to determine the recommended Phase II dose (RP2D).
NCT06643481
This is a multicenter, randomized, double-blind, placebo-controlled, parallel group Phase II study to evaluate the efficacy and safety of VHB937 in participants with early-stage ALS (within 2 years of ALS symptoms onset). The study comprises a core double-blind (DB) 40-week treatment period followed by an open label extension (OLE).