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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.
NCT07023835
Usnoflast Neuromuscular Investigation for Treatment Efficacy in Amyotrophic Lateral Sclerosis
NCT03233646
This study aims to develop and evaluate biomarkers using non-invasive optical coherence tomography (OCT) and OCT angiography (OCTA) as well as ultra-widefield (UWF) fundus photography to assess the structure and function of the retinal and choroidal microvasculature and structure in persons with mild cognitive impairment (MCI) and Alzheimer's Disease (AD), Parkinson's Disease (PD), or other neurodegenerative disease, diseases as outlined.
NCT07233148
This is a prospective, observational, online study of people diagnosed with ALS, MND or PLS referred to as HAROS (Healing ALS Registry Observational Study). Participants will enter information into an online ALS registry once per month, including their ALSFRS-R data, certain other symptoms, dietary intake, supplements, medications and other therapies, both conventional and integrative. Participants will also enter the hours spent on optional self-study and free online education. The investigators will assess the effectiveness of various therapies and education by measuring physical outcomes.
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.
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.
NCT06903286
This study will evaluate the long-term safety and efficacy of participants enrolled in SPG302-ALS-101 with Amyotrophic Lateral Sclerosis (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.
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).
NCT07174492
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).
NCT07202494
The MESO7 study is a prospective observational research project designed to investigate the mechanisms of resilience and neurodegeneration in neurological diseases and healthy aging. It leverages advanced multiparametric brain and spinal cord imaging at high (3T) and ultra-high magnetic fields (7T) to assess structural, functional, metabolic, and mesoscale changes in the central nervous system (CNS). Particular emphasis is placed on sodium (23Na-MRI) and phosphorus (31P-MRI) imaging, along with layer-dependent brain connectivity analysis. The primary objective is to evaluate the impact of neuronal energy failure, measured via sodium concentration, on functional and structural reorganization in both healthy individuals and patients with various neurological conditions. Directed brain network models will be constructed from MRI data to quantify the connectivity strength (in- and out-degree) of cortical nodes. These connectivity metrics will be correlated with sodium concentrations to assess energy failure and its role in network reorganization. Longitudinal follow-up over two years is planned for subgroups with clinically progressive diseases. Secondary objectives include decoding metabolic, microstructural, and functional signatures of successful aging at the laminar level; characterizing disease-specific patterns of cortical and spinal microstructure associated with physical and cognitive dysfunction; describing longitudinal mesoscale and metabolic changes; and generating representative normative imaging datasets for the neuroscience community. The study plans to enroll a total of 540 patients across 9 neurological conditions:Multiple Sclerosis (MS), Neuromyelitis Optica Spectrum Disorders (NMOSD), MOG Antibody Disease (MOGAD), Alzheimer's disease, Parkinson's disease, Amyotrophic Lateral Sclerosis (ALS), temporal and non-temporal epilepsy, and mild traumatic brain injury (mTBI),in addition to 160 age- and sex-matched healthy controls, totaling 700 participants. Imaging and clinical assessments will be performed at the CEMEREM center at Timone University Hospital, AP-HM, Marseille, France. Each participant will undergo multiparametric brain and spinal cord MRI, including DTI, BOLD, MP2RAGE, SWI, quantitative sodium and phosphorus imaging, and functional assessments including neuropsychological testing, visual and motor function tests. Disease-specific assessments such as OCT, evoked potentials, and disability scores (e.g., EDSS for MS) will also be included when appropriate. The study is expected to improve understanding of CNS adaptation mechanisms and support the development of more accurate diagnostic and prognostic tools for neurodegenerative diseases
NCT07143656
This retrospective observational study will analyze de-identified clinical data from patients with amyotrophic lateral sclerosis (ALS) collected at multiple centers over 7 years. The primary objective is to describe disease progression using the ALS Functional Rating Scale-Revised (ALSFRS-R). Secondary objectives include evaluating survival, ventilatory decline, and correlations between available biomarkers (e.g., neurofilament light chain, cytokines) and disease trajectory. No new interventions or patient contact will occur.
NCT04244630
The purpose of this research is to investigate the validity of a previous clinical trial named EH301, which showed beneficial effects of anti-oxidant therapies in patients with amyotrophic lateral sclerosis (ALS). If validated by this study, providing over-the-counter anti-oxidants would be a simple, low risk, low-cost approach to significantly slow or stop the progression of ALS, for which currently no effective treatment exists. It is currently thought that oxidative stress is a major cause of ALS. The study investigators are therefore planning to expand the original scope of the previous trial by including anti-oxidants at high doses that were not previously used. All of these compounds are considered safe.
NCT07138014
This is a Phase II clinical trial evaluating the effectiveness and safety of an investigational drug, FHND1002 granules, in adults with Amyotrophic Lateral Sclerosis (ALS). The main goals are: To determine if FHND1002 can slow the progression of ALS compared to a placebo. To assess the safety and tolerability of two different doses of FHND1002 (100mg and 200mg) in ALS patients. Approximately 180 participants will be randomly assigned (like flipping a coin) to one of three groups: FHND1002 100mg once daily FHND1002 200mg once daily Placebo (an inactive substance) once daily Assignment will consider disease severity (ALSFRS-R score) and where symptoms started (Limb vs. Bulbar). Participants can continue taking stable doses of approved ALS medications (like riluzole or edaravone) or be on no medication. The study consists of: A Screening Period (up to 4 weeks). A Double-Blind Treatment Period (48 weeks). During the 48-week treatment period: Participants will take their assigned granules orally once daily (with or without food). They will attend clinic visits at Weeks 2, 4, 12, 24, 36, and 48 for safety checks. Effectiveness will be measured at Weeks 12, 24, 36, and 48 using standard ALS assessments, including the ALS Functional Rating Scale-Revised (ALSFRS-R), breathing tests (FVC%), and quality of life/questionnaires (ROADS, ALSAQ-5).
NCT07127172
The GB-PRIME Study is an early feasibility study designed to assess the clinical safety and functionality of the Neuralink N1 Implant and R1 Robot. This study involves participants who have tetraparesis, tetraplegia, or a diagnosis that may lead to these conditions. The N1 Implant is a wireless, rechargeable device mounted on the skull, connected to electrode threads that are inserted into the brain by the R1 Robot, which is a robotic device specifically designed for this procedure.
NCT06992596
The UAE-PRIME Study is a feasibility study designed to assess the initial clinical safety and functionality of the Neuralink N1 Implant and R1 Robot. This study involves participants who have tetraparesis, tetraplegia, or a diagnosis that may lead to these conditions. The N1 Implant is a wireless, rechargeable device mounted on the skull, connected to electrode threads that are inserted into the brain by the R1 Robot, which is a robotic device specifically designed for this procedure.
NCT06849115
The study was designed as a single-center, open-label, single-arm pilot study to estimate the safety and efficacy L-carnitine in ALS patients with CHCHD10 mutations.
NCT06704347
This is a Phase 1, open-label, multi-center safety study of XT-150 in adult participants with Amyotrophic Lateral Sclerosis (ALS). Participants providing informed consent and meeting all study eligibility criteria will be enrolled in the study and will receive a single injection of XT-150 at the Baseline visit. Follow-up visits will occur over 180 days (6 months) after the injection. 8 participants (4 participants per dose level) will be enrolled sequentially in up to 2 ascending, single dose cohorts: Cohort 1: 1.5 mg XT-150 Cohort 2: 4.5 mg XT-150
NCT06891716
The goal of this clinical trial is to test whether we can reliably and safely measure the accumulation of pathological protein TDP-43 \[involved in rare forms of dementia such as frontotemporal dementia (FTD) and in amyotrophic lateral sclerosis (ALS)\] using a new positron emission tomography (PET) tracer called \[18F\]ACI-19626. Both healthy people and people with (suspected) TDP-43 accumulation will participate to this trial. The main questions it aims to answer are: * whether \[18F\]ACI-19626 is safe and well tolerated when injected into participants * whether \[18F\]ACI-19626 reliably detects abnormal TDP-43 in the brain using PET technique. * whether there are differences in the amount of this protein between people with diseases related to TDP-43 accumulation in the brain and people without these diseases. Participants will: * Visit the clinic to consent to their participation and to ensure they are eligible (physical and neurological examinations, questionnaires, blood and urine tests, ECG and MRI in some cases). * Visit the clinic to receive the tracer \[18F\]ACI-19626 intravenously and be scanned in a PET scanner, during which blood will be collected. * Receive a phone call from the clinic 2 to 4 days after the PET scan to report any symptoms and side-effects that they may be having. Some of the participants may be asked to come again to the clinic for a second PET scan, allowing the researchers to determine if the measurements with the first PET scan are stable and reproducible.
NCT06803784
Neurodegenerative disorders (NDDs), such as Parkinson¿s disease (PD), Alzheimer¿s disease (AD), Frontotemporal dementia (FTD) and Amyotrophic Lateral Sclerosis (ALS) are characterized by aggregation and intracellular accumulation of misfolded proteins, which are believed to play a key role in synaptic dysfunction and neuronal death. Protein structural complexes in biofluids have been proposed to mirror pathological conditions suggesting their use as biomarkers for NDDs characterized by protein aggregation. In this framework, we plan to: i) collect a large cohort of NDD and prodromal patients and healthy subjects using standardized clinical and genetics procedures; ii) apply a novel method based on genomics, proteomics and bioinformatic analysis to map protein complexes in biofluids; iii) identify novel circulating biomarkers and correlate them to genetic profiling and disease endophenotypes, and; iv) validate the biological properties in human brain tissue and dopaminergic cultures.