View clinical trials related to Amyotrophic Lateral Sclerosis.
Filter by:This study is a randomized, placebo-controlled, phase 2a trial to study the biological activity, safety, and tolerability of regulatory T Lymphocytes (Tregs) taken and expanded outside of the body and returned back to the same person whose Treg were removed, given back by IV (intravenously) and in combination with low-dose IL-2 in people with Amyotrophic Lateral Sclerosis (ALS).
Amyotrophic lateral sclerosis (ALS) is a neurodegenerative disease that affects central and peripheral motor neurons. None of the clinical trials conducted have been clearly successful and the disease remains incurable, putting patients' vital prognosis at risk in the medium term. An alteration of the basal metabolism leading to hypermetabolism has been described in several articles in the literature. The causes of this hypermetabolism and the precise exploration of the metabolic pathways involved are still poorly understood. The fibroblasts of ALS patients may be the site of some metabolic disturbances in this disease with a hypothetical specific basal metabolic profile. These cells are adapted to different metabolic explorations such as omnic approaches. Superficial skin biopsy followed by fibroblast culture can provide a considerable biobank. This cellular richness will allow us, in ALS patients and their controls, to perform metabolomic and lipidomic approaches, as well as the quantification transcriptomic approach."
Single ascending doses of AP-101 will be administered by intravenous (IV) infusion
This study, being conducted under the auspice of the CReATe Consortium, will enroll patients with ALS and related disorders as well as healthy controls, with the goal of facilitating clinical validation of leading biological-fluid based biomarker candidates that may aid therapy development for patients with ALS and related disorders.
This study aims to evaluate the safety of a wireless implantable neurodevice microsystem in tetraplegic patients, as well as the efficacy of the electrodes for long-term recording of neural activities and the successful control of an external device.
This is a Phase III, multi-centre, randomized, double-blind, placebo-controlled, parallel-group study to evaluate Safety and Efficacy of Tauroursodeoxycholic (TUDCA) as add-on Treatment in Patients Affected by Amyotrophic Lateral Sclerosis (ALS).
Given the role of adaptive immunity in ALS, the pathogenicity of some clostridial strains on motorneurons, the putative role of cyanobacteria in ALS development, and the increasing interest for microbiota in neurodegenerative disorders, the modification of intestinal microbiota might affect ALS at its core. This interventional study aims at evaluating the biological and disease-modifying effects of Fecal Microbiota Transplant (FMT) in patients affected by Amyotrophic Lateral Sclerosis. As a primary aim of the study, the investigators postulate ALS patients treated with FMT compared to the control arm will display increased Tregs number, which is a favourable biomarker of disease activity and progression. Clinical outcomes as disease progression measured by ALS Functional Rating Scale Revised (ALSFRS-R) score, survival, respiratory function and quality of life will be assessed during the whole treatment and follow-up period. Moreover, biological activity of FMT will be evaluated in different biomatrices, together with FMT safety and tolerability in a cohort of ALS patients.
The study team propose that a new, hand-held test device may be valuable in the management of breathing failure in patients with Motor Neurone Disease (MND). The study team need to validate this device against the current gold standard of blood gas analysis and determine whether people with MND can use it at home. The new device, called 'N-Tidal C™' measures the carbon dioxide (CO2) in expired breath. At the end of the breath (end tidal) the CO2 level gives an indication of the CO2 in the person's arterial blood. Ventilatory failure is diagnosed at present using the value of CO2 in the arterial blood, but usually this can only be measured in specialist clinics. The study will determine if the end tidal CO2 measured by the new device agrees with CO2 measured on a blood test in clinic and also whether or not the device is practical for home use. The team will analyse the output of the device during home monitoring to see if changes in the pattern of CO2 in the expired breath identify, or even predict, the development of breathing failure in the community. With the results of these measures and detailed information about the patients in Papworth's clinic, recruited to this study, collected over a year the team will design a follow on study to see if using the new device at home can improve survival and quality of life for people with MND.
This is a randomised, double-blind, placebo controlled study on a cannabis-based medicine extract (MediCabilis CBD Oil), in patients with Amyotrophic Lateral Sclerosis or Motor Neurone Disease. Participants will be randomised in a 1:1 ratio to receive MediCabilis CBD Oil or placebo oil. The treatment duration is 6 months with one-month safety follow up. Participants will be checked every month either face to face or via telephone and will be assessed to collect data for study objectives such as ALSFRS-R, Forced Vital Capacity, pain and spasticity score, and quality of life. Thirty (30) participants will be randomised.
Eligible subjects will receive either different dosages of HK-001 or placebo in a 3:1 ratio in 1 of the 7 dose cohorts. After single dose administration, followed by an independent Data and Safety Monitoring Board (DSMB) meeting for safety assessments (including the available plasma pharmacokinetic profile), the subjects will be allowed to receive (Z)-BP or placebo twice a day orally at the study site for 14 consecutive days and follow up on the 28th day after the last dose administration by a site visit. The study drugs (including placebo) will be administered at the study site by following the investigator's instructions to either perform blood sampling for pharmacokinetic evaluation or maximize the treatment compliance. There will be 7 cohorts and subjects will be randomized into cohorts consisting of 8 subjects each (6 active and 2 placebo controls per cohort). Dose cohorts will be escalated sequentially from low to high dose (50 mg, BID; 100 mg, BID; 150 mg, BID; 225 mg, BID; 300 mg, BID; 400 mg, BID; 525 mg, BID) by following a modified Fibonacci sequence, and based on the decision of an independent DSMB at a set time point. Following all subjects of a cohort complete the safety and PK evaluation after receiving the last dose administration, a cohort at the next dose level will be launched if the DSMB does not identify significant safety concerns after reviewing safety data and PK profiles.