Active clinical trials for "Amyotrophic Lateral Sclerosis"

This is a randomized double-blind controlled exploratory clinical study to evaluate the efficacy and safety of FB1006 in the treatment of amyotrophic lateral sclerosis (ALS) patients.

Prospective, international, randomised, double-blind, placebo controlled, multicentre, parallel group study. Patients will be randomised in a 2:1 allocation ratio to receive either IFB-088 + riluzole 100 mg or placebo + riluzole 100 mg. This clinical trial is an exploratory study, designed to show a signal of efficacy of IFB-088 through ALSFRS-R, MITOS and King's College. Respiratory function will be followed through SVC. Biomarkers and quality of life will also be evaluated throughout the study. Patients will be treated over a 6-month period. After a screening/consent visit, patients will undergo clinic visits at randomisation (V0), at 2 weeks (V1), and at months 1 (V2), 3 (V3) and 6 (V4). One week after V0, the patient will undergo urine analysis (dipstick)and blood sampling for measurement of creatinine , as well as blood sampling for measurement of creatinine and calculation of eGFR at months 2, 4 and 5. At the V2 visit, in addition to other assessments, patients will undergo blood sampling for PK measurements and urine sampling for crystalluria examination. Blood and urine chemistry, as well as physical examination and vital signs assessment to assess safety will be performed at each visit for safety purpose and crystalluria examination will be repeated at the follow-up visit, performed one month ± one week after V4.

A Phase 2b/3 multicenter, randomized, double-blind, placebo-controlled, parallel group study to evaluate the efficacy, safety and tolerability of MN-166 given to ALS participants for 12 months followed by a 6-month open-label extension phase.

Amyotrophic lateral sclerosis/ Motor Neurone Disease (ALS/MND) is a rare and invariably fatal neurological disease. ALS/MND has a terribly high burden on patients, family and carers, and carries great socioeconomic burden. Current best treatment options are expensive and attempt to control disease progression and manage symptoms while offering no cure. Better treatments are wanting. Monepantel is a well-known veterinary drug, registered as a livestock wormicide in 39 countries. The industry collaborator, PharmAust Ltd, has found that monepantel shows off-target activity, inhibiting a cellular signaling system controlled by mammalian target of rapamycin (mTOR). This stops cancer growth and reduces protein accumulation in diseased cells. PharmAust has already tested monepantel in humans and pet dogs in Phase I and II anti-cancer clinical trials, respectively, in Australia. Data from these trials show that monepantel treatment associates with an exceptionally high safety profile, mTOR signaling inhibition and anticancer activity. Abnormal protein accumulation within motor neurons of the brain associates with the cause of ALS/MND. Inhibition of the mTOR signaling pathway slows disease progression in certain preclinical models of ALS/MND and is suggested to provide synergy with the ALS/MND standard-of-care drug, riluzole. An alternative mTOR inhibitor, rapamycin, is currently the subject of an ALS/MND clinical trial in humans investigating control of disease progression. Monepantel has a different structure to rapamycin and an apparently better safety profile. This Phase I Clinical Trial hypothesis is that monepantel administration to individuals living with ALS/MND will safely reduce disease associated protein accumulation in motor neurons and provide therapeutic benefit. To test this hypothesis, the safety and tolerability of oral monepantel administration and markers of efficacy will be tested in individuals living with ALS/MND in a dose escalating Phase I/II Clinical Trial. To mitigate risk, only patients with sporadic and certain known familial types of ALS will be eligible. To further mitigate risk, the monepantel starting dose will be reduced a calculated five-fold compared to that already used in human cancer patients and already demonstrated to be safe and effective as an mTOR inhibitor. Dependent upon incremental outcomes, three higher doses may then be tested, each for minimally 28 days with a duration at the optimal dose of at least six months.

This will be a multistate, multicenter clinical study to determine the efficacy and safety of medical cannabis for a wide variety of chronic medical conditions.

The HEALEY ALS Platform Trial is a perpetual multi-center, multi-regimen clinical trial evaluating the safety and efficacy of investigational products for the treatment of ALS.

MND-SMART is investigating whether selected drugs can slow down the progression of motor neurone disease (MND) and improve survival. The study is 'multi-arm' meaning more than one treatment will be tested at the same time. The trial started with 3 arms; drug 1 (memantine), drug 2 (trazodone) and placebo (dummy drug). A third drug, amantadine, was added in April 2023. The first two drugs, memantine and trazodone, were removed from the trial in September 2023 due to lack of benefit. The trial currently has 2 recruiting arms; amantadine and placebo. This allows the evaluation of each drug versus placebo. Participants will be randomly allocated to either of the recruiting arms. Medicines being tested are already approved for use in other conditions. MND-SMART has an 'adaptive' design. This means medicines being studied can change according to emerging results. Treatments shown to be ineffective can be dropped and new drugs can be added over the duration of the study. This will allow many treatments, over time, to be efficiently and definitively evaluated. The medicines being tested have been selected following a rigorous process involving a systematic, unbiased, and comprehensive review of past clinical trials data, as well as information from pre-clinical research (studies in laboratories), for MND and other related neurodegenerative disorders. Drugs have been ranked for inclusion in MND-SMART by a group of independent MND experts according to set criteria. These include consideration of how the drugs work, their safety profiles, and the quality of previous studies. New drugs will be selected for investigation in MND-SMART based on continuous review of constantly updated scientific evidence as well as findings from state-of-the-art human stem cell based drug discovery platforms. These can be added by substantial amendment to the protocol.

Weight loss is a known negative prognostic factor in amyotrophic lateral sclerosis (ALS). One potential mechanism of weight loss in ALS is a disturbance of the mitochondrial complex I which causes an energy deficit in affected cells. Over the last years, various interventional studies targeting the energy deficit in ALS yielded promising results; however,it is still unclear which kind of nutrition or nutritional supplement is most beneficial. Ketone bodies represent a logical therapeutic option in ALS as ketone bodies are an extremely high-energetic substrate which yields the double amount of adenosine triphosphate (ATP) per mole compared to glucose. The human liver is able to synthesize ketone bodies (beta-hydroxybutyrate, acetone, and aceto-acetate) from fat in times of glucose shortage, for example after a prolonged period of fasting. This metabolic shift is the underlying principle of the ketogenic diet, a carbohydrate-free, fat-rich diet which has been successfully tested in other neurodegenerative diseases such as Alzheimer's and Parkinson's disease. In the ALS mouse model, a ketogenic diet was associated with a slower decline of motor function. However, a ketogenic diet is difficult to implement in ALS as it requires a long-term change of eating habits, which is difficult to achieve due to progressive dysphagia, fast worsening of general condition, and limited survival. Therefore, the direct administration of ketone bodies yields a more realistic alternative in ALS as it is easy to apply and allows to maintain the usual eating habits. In this study, we hypothesize that the administration of 3 x 10 g beta hydroxybutyrate ester per day (in addition to normal food intake and the standard medication of 2 x 50 mg riluzole) slows down disease progression as measured by neurofilament light chains (NfL) in serum after 6 months compared to placebo. Power calculation relies on the results of the lipids and calories for ALS (LIPCAL-ALS) study which tested the effect of a high-caloric fatty nutritional supplement in ALS. The study revealed that NfL serum values declined significantly in the intervention group while remaining stable in the placebo group over the course of the study. Assuming a similar effect size for ketone bodies, we calculated that 76 patients had to be included in the current trial.

The primary objective of the study is to demonstrate the safety and potential efficacy of TJ-68 for improving muscle cramps in participants with ALS based on a two-site, randomized, placebo-controlled double-blind multi-period crossover (N-of-1) study design.

The primary purpose of this study is to evaluate the clinical efficacy of ION363 on clinical function and survival in carriers of fused in sarcoma mutations with amyotrophic lateral sclerosis (FUS-ALS).