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Showing 1-20 of 367 trials
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).
NCT07294144
The goal of this clinical trial is to evaluate whether tofersen is safe and effective in adults with non-SOD1 ALS. Tofersen is currently approved by the U.S. Food and Drug Administration to treat SOD1-ALS. The main questions it aims to answer are: * Does tofersen lower the levels of neurofilament light chain (NfL) in the blood and CSF of adult participants with non-SOD1 ALS? * Is tofersen safe and tolerable for adult participants with non-SOD1 ALS? * Does tofersen affect other measurements such as clinical outcomes and quality-of-life measures in participants with non-SOD1 ALS? Participants will : * Receive 100mg tofersen via lumbar puncture for 24 weeks. The doses are at the following time points: Weeks 0, 2, 4, 8, 12, 16, 20, and 24. * Complete 2 follow-up visits following the end of the dosing period at Weeks 28 and 32. * Complete a variety of questionnaires and outcome measurements such as strength and breathing testing.
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.
NCT07571174
The main purpose of this study is to assess the long-term safety and tolerability of LY4256984 in participants with Amyotrophic Lateral Sclerosis (ALS). This study is a long-term extension of study J6I-MC-OWAA (NCT07100119) and is part of the OLMP (NCT07571200) master protocol that will last approximately 96 weeks.
NCT07660614
This study will examine what happens when patients with amyotrophic lateral sclerosis (ALS) are given an investigational medication (study drug) known as LTX-002. Specifically, the researchers will be looking at safety, tolerability (if someone has any side effects from the drug), pharmacokinetics (what the body does to the study drug) and pharmacodynamics (what the study drug does to the body). The study will also investigate the effect of the drug on indicators of the severity of ALS, such as markers in blood and in the cerebrospinal fluid (the fluid that surrounds the brain and spinal cord, CSF) and on measures of the participant's ability to move, speak, and breathe.
NCT07369076
The purpose of this trial is to learn about the effects of NB-4746 compared with placebo in people with amyotrophic lateral sclerosis. The questions this trial aims to answer in comparing NB-4746 to placebo are: * What adverse events associated with taking NB-4746 are reported during this trial? (An adverse event is any sign or symptom that participants have during a trial. Adverse events may or may not be caused by treatments in the trial.) * How does NB-4746 move into, through, and out of the body of the participants? * What is the change in the level of neurofilament light (NfL) in the participants' blood? (NfL is a marker used to measure the extent of damage to the nerve cells.) This trial has 2 parts. The trial doctors will start Part A before starting Part B of the trial. Participants have an option to enter the open label extension after completing Part A or Part B. Part A: Participants will be randomly placed into 1 of the 3 groups. There are equal chances to be assigned to either group. Group 1: Participants will receive NB-4746 capsules at a low dose to take by mouth twice daily for 1 month. Group 2: Participants will receive NB-4746 capsules at a high dose to take by mouth twice daily for 1 month. Group 3: Participants will receive placebo capsules to take twice daily for approximately 1 month. Part B: Participants will be randomly placed into 1 of the 2 groups. There are equal chances to be assigned to either group. Group 1: Participants will receive NB-4746 capsules at a dose determined by Part A to take by mouth twice daily for 12 weeks. Group 2: Participants will receive placebo capsules to take twice daily for approximately 12 weeks. None of the participants, trial doctors, or trial staff will know which treatment the participants will receive during Part A or B. Some trials are done this way because knowing what treatment the participants receive can affect the results of the trial. Doing a trial this way helps to make sure that the results are looked at with fairness across all treatments. Open-Label Extension: Upon the completion of Part A or Part B, the doctor will verify the participant's willingness to continue receiving study treatment. This open label extension continues until each participant completes up to 1 year of treatment. The trial doctors will check participants' ALS and general health throughout the trial.
NCT03489278
The purpose of the Clinical Procedures To Support Research (CAPTURE) study is to utilize information collected in the medical record to learn more about a disease called amyotrophic lateral sclerosis (ALS) and related disorders.
NCT07625605
Brief summary template The goal of this trial is to test the feasibility and efficacy of the Mediterranean-DASH Intervention for Neurodegenerative Delay (the MIND diet) in people living with amyotrophic lateral sclerosis (ALS) and Parkinson's disease (PD) and healthy controls. The main question\[s\] it aims to answer are: * How feasibile is our educational dietary intervention, which teaches participants with ALS, PD, and healthy controls to eat by the neuroprotective MIND dietary pattern? * How does the MIND dietary pattern affect the gut microbiome, metabolome, and lipidome in people with a neurodegenerative disease (ALS or PD) and healthy controls? * Does the MIND diet affect clinical measures of ALS and PD? * Does the MIND diet affect human biomarkers of systemic inflammation, metabolism, and neurodegeneration? Participants will: * Receive a MIND diet cookbook, a folder with educational handouts, and weekly emails with links to educational videos about the MIND diet. * Complete a food diary, a MIND diet tracker, and a weekly questionnaire about their experience of eating by the MIND diet. * Collect stool specimens at the beginning, middle, and end of the study. * Undergo venipuncture at the beginning and end of the study.
NCT07616050
The purpose of this clinical study is to evaluate the feasibility, usability, and motivational impact of VirtualPark, a virtual reality-based dual-task rehabilitation system, in adults with neurological and age-related conditions. VirtualPark is a virtual reality application designed to deliver cognitive exercises during cycling training using a commercially available ergometer (THERA-Trainer Tigo). The system integrates physical and cognitive tasks in simulated real-life environments. The intervention integrates motor and cognitive training tasks targeting domains such as attention, inhibition, working memory, and navigation. This is a prospective, multicenter, randomized, cross-over pilot study. It will compare cycling training performed with and without virtual reality. Participants will complete both intervention conditions over a 4-week period separated by a wash-out phase with standard rehabilitation activities. The order of conditions will be randomized. The study will assess motivation during rehabilitation training, usability and user experience of the system, as well as exploratory effects on cognitive and motor performance, functional abilities, perceived exertion, and safety. The study will enroll adult participants (≥18 years) with conditions such as stroke, Parkinson's disease, multiple sclerosis, amyotrophic lateral sclerosis, mild cognitive impairment, spinal cord injury, and frail older adults.
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 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.
NCT07572838
The ALTER-EGO study is a monocentric, observational clinical investigation designed to evaluate the safety, usability, and feasibility of the humanoid robotic platform Alter-Ego as an assistive device in hospital and simulated home-care settings. The system is intended to support healthcare and rehabilitation professionals in the management of patients with Amyotrophic Lateral Sclerosis (ALS). Alter-Ego is an anthropomorphic, wheeled, self-balancing social robot equipped with compliant robotic arms and SoftHand synergistic grippers. It operates in teleoperated, semi-autonomous, or fully autonomous modes and integrates advanced navigation, mapping, object manipulation, and natural language processing capabilities. The robot is not classified as a medical device under EU Regulation 2017/745, as it does not perform diagnostic or therapeutic functions, but provides logistical, communicative, and organizational support. The study is conducted at ICS Maugeri IRCCS (Milan Camaldoli). Participants include healthcare professionals (physicians, nurses, physiotherapists, occupational therapists, speech therapists, and healthcare assistants) and up to 40 hospitalized ALS patients. Patients are not direct operators of the robot but provide experiential feedback. A total of 40 experiments are organized into four clusters: Cluster 1 - Telemedicine (Teleoperated or Semi-Autonomous Mode) Within a simulated home-care environment, Alter-Ego supports remote clinical and rehabilitation activities through four specific tasks: Simulated Remote Medical Visit (First Home Transition): A physician conducts a tele-visit via the robot, asking health-related questions, performing visual neurological assessments using cameras and microphones, requesting specific motor tasks, and reviewing vital parameters from home monitoring devices. This task addresses the need for expert supervision during early discharge phases. Assistive Device Training: A physiotherapist and nurse remotely verify and guide the correct use of assistive devices such as non-invasive ventilation systems, PEG, or patient lifters, providing practical instructions to patients and caregivers. Home Environment Assessment: An occupational therapist uses the robot in semi-autonomous mode to map the domestic environment and, in tele-guided mode, visually inspect spaces to identify architectural barriers and optimize assistive device placement. Telerehabilitation: Physiotherapists and speech therapists use the robot's audio-video interface and display to conduct remote rehabilitation sessions and functional evaluations, providing visual and verbal feedback. Cluster 2 - Delivery Services (Autonomous Mode) The robot autonomously transports small items within the hospital ward, including medical records, blood collection kits, rehabilitation tools, and small food or beverage packages. Cluster 3 - Guidance and Welcome Assistance (Autonomous Mode) Alter-Ego presents ward service information to newly admitted patients and provides personalized daily reminders regarding scheduled rehabilitation activities. Cluster 4 - Monitoring (Autonomous Mode) The robot administers the Visual Analog Scale (VAS) for pain assessment and includes an exploratory function for detecting vocal distress keywords (e.g., "pain," "help," "thirst") using AI-based speech recognition, alerting staff when necessary. Primary endpoints include usability and feasibility (System Usability Scale - SUS; Questionnaire for User Interaction Satisfaction - QUIS; NASA Raw Task Load Index - NASA-RTLX) and safety assessment through systematic recording of adverse events. Secondary outcomes include healthcare professionals' satisfaction with autonomous robot performance, patient satisfaction (Likert scales), and psychosocial impact on professionals (selected PIADS items). The ALTER-EGO study aims to determine whether an anthropomorphic robotic platform can safely and effectively support multidisciplinary ALS care, improve workflow efficiency, and enhance patient-centered assistance in both hospital and transitional home-care settings.
NCT07571200
Study OLMP is a master protocol that will support a collection of individual sub studies that share key design components. Participants from the originator study OWAA (NCT07100119) will be assigned to the appropriate study treatment group. The studies aim to evaluate the safety and tolerability of different treatments in participants with Amyotrophic Lateral Sclerosis (ALS) that will last at least 96 weeks.
NCT06726577
This trial adopts a multicenter, randomized, double-blind, placebo-controlled parallel design. This experiment is divided into two groups: the experimental drug group and the placebo group. Successful participants will be randomly assigned to the two groups, with an expected enrollment of 60 participants. There will be 30 participants in the experimental drug group and 30 participants in the placebo group. During the treatment period, the experimental drug group received intravenous injections of 0.5mL/kg TP04HN106 each time; The placebo group received intravenous injections of 0.5mL/kg of saline each time. During the extension period, all subjects received intravenous injection of 0.5mL/kg TP04HN106. In the experiment, all subjects received Liraglutide tablets as the standard baseline treatment. The subjects who were successfully screened in the experiment were enrolled in sequence, and the safety, tolerability, efficacy, and pharmacokinetic characteristics of the experimental drug were evaluated after administration. The entire trial includes a screening period of 1 week, a treatment period of 12 weeks (including 3 treatment cycles, each treatment cycle of 4 weeks), an extension period of 12 weeks (including 3 treatment cycles, each treatment cycle of 4 weeks), and a follow-up period of 4 weeks. In addition, some subjects underwent a 1-week single dose PK study before the start of the treatment period; In addition, during the first treatment cycle of the treatment period, some subjects were selected for multiple dosing PK studies. We plan to conduct a single dose PK study among 12 subjects, with 6 subjects in the experimental group and 6 subjects in the control group; Multiple dose PK studies were conducted among 12 subjects, with 6 subjects in the experimental group and 6 sujects in the control group. It is not allowed for the same subject to participate in both single dose and multiple dose PK studies simultaneously. The 1st to 12th subjects planned to be enrolled in the trial will undergo a single dose PK study. After the first dose, venous blood will be collected from the 12 subjects according to the blood sample collection requirements, and their PK characteristics will be evaluated. The observation period for single dose administration is one week. After completing the final blood sample collection and safety assessment, the subjects enter the treatment period, extension period, and follow-up period. The 13th to 24th subjects planned to be enrolled in the trial will undergo multiple dose PK studies. These 12 subjects will have their venous blood collected according to the blood sample collection requirements during the first treatment cycle of the treatment period, and their PK characteristics will be evaluated. After completing the treatment period, the subjects will enter the extension period and follow-up period.
NCT06280079
This study aims at evaluating efficacy and tolerability of an ultra-high-caloric, fatty diet (UFD) compared to placebo in patients with amyotrophic lateral sclerosis (ALS).
NCT06051123
The aim of this study is to assess the impact of a probiotic formulation on participants with ALS-FTDSD. It is hypothesized that participants given the probiotics will have different lipid profiles compared to participants receiving the placebo at different time points.
NCT07539662
Amyotrophic Lateral Sclerosis (ALS) is a rapidly progressive and fatal neurodegenerative disorder. Its global prevalence is approximately 0.73-1.89 per 100,000 individuals. In China, there are about 200,000 ALS patients, with approximately 25,000 new cases diagnosed annually. Microglia, the resident immune cells of the central nervous system (CNS), rapidly transition from a resting state to a pro-inflammatory phenotype (M1) in ALS. This activation leads to the release of a large number of inflammatory factors (such as TNF-α, IL-1β, IL-6, NO, ROS) and chemokines (such as MCP-1/CCL2), and triggers the NLRP3 inflammasome. Furthermore, systemic immune dysregulation plays a significant role in the pathogenesis of ALS. ALS patients exhibit reduced numbers of regulatory T cells (Tregs), alterations of activated CD8+ T cell infiltrates, and a shift in the helper T cell (Th1/Th2) balance towards the pro-inflammatory Th1 phenotype. In recent years, therapeutic strategies targeting novel pathways such as neuroinflammation, immune dysregulation, and energy metabolism have emerged, including the infusion of Tregs, mesenchymal stem cells (MSCs), and neural stem cells. However, these approaches have still failed to halt disease progression \[NCT05695521, NCT03280056, NCT06973629, NCT02290886\]. Recent research suggests that hematopoietic stem cell transplantation (HSCT) may disrupt the activation cycle between astrocytes and microglia, alleviate chronic inflammatory states in the CNS, partially mitigate mitochondrial dysfunction, and thereby slow neurodegeneration. Unrelated umbilical cord blood transplantation offers advantages such as low HLA-matching requirements, a lower risk of graft-versus-host disease (GVHD), a potent graft-versus-leukemia (GVL) effect, and immediate availability. Investigators plan to conduct an exploratory clinical trial to evaluate the safety and efficacy of umbilical cord blood transplantation for ALS patients. The preliminary plan is to enroll 8 adult subjects. Following successful neutrophil engraftment (defined as an absolute neutrophil count ≥0.5×10⁹/L for three consecutive days) and confirmation of complete donor chimerism. The trial will focus on assessing transplantation-related complications and patient tolerance. A 3-month post-transplantation follow-up will be conducted for a comprehensive evaluation of safety and efficacy for ALS patients.
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.
NCT05204017
CAPTURE ALS is a long-term data and biorepository platform that will facilitate future ALS research. CAPTURE ALS will provide the standardized systems and tools necessary to collect, store, and analyze vast amounts of multimodal information about ALS. These multimodal datasets and biosamples will be made available for use by researchers or industry across Canada and around the world in accordance with the CAPTURE ALS Data Sharing Policy to advance research on ALS.
NCT04993755
This is a Phase 2a study to assess the the safety and tolerability of TPN-101 in patients with Amyotrophic Lateral Sclerosis (ALS) and/or Frontotemporal Dementia (FTD) Associated with Hexanucleotide Repeat Expansion in the C9orf72 gene (C9ORF72 ALS/FTD).
NCT06856850
Diagnosis of ALS/FTD disease spectrum is challenging because it largely relies on clinical symptoms. Identifying novel biomarkers is essential for a paradigm shift towards a more precise biological-based diagnosis. To achieve this aim, having access to proper specimens and analytical methods is crucial. Our team of experts in neurology, biology, chemistry, physics, and AI will explore ALS/FTD from novel perspectives using transcriptomics, proteomics, genomics and other innovative approaches to analyzing easily accessible tissues. The seed amplification assay (SAA) will be also exploited to detect pathological TDP-43. This project aims to create disease fingerprints useful for patient stratification and monitoring of disease progression, and to evaluate the therapeutic efficacy in clinical trials, thus overcoming the limits of clinical interpretation. Discovering new biomarkers and cellular pathways will improve the diagnosis and treatment of these devastating diseases.