View clinical trials related to Motor Neuron Disease.
Filter by:Pilot, phase II, prospective, open-label, uncontrolled study of plasma exchange with 5% albumin in 10 subjects having a definite, possible, or probable diagnosis of Amyotrophic Lateral Sclerosis (ALS).
This study is a non-randomized, open-label, partially blinded, sequential cohort, dose-escalation study designed to obtain preliminary data on the safety, tolerability, and early efficacy of Q-Cells® transplantation in subjects with ALS. Following an initial cohort receiving cell transplants unilaterally in the lumbar spinal cord, subsequent cohorts will receive escalating doses transplanted unilaterally in cervical spinal cord. Subjects and outcome measure assessors will be blinded to side of treatment. The study will be conducted at sites with extensive clinical experience with the care of patients with ALS.
This research study is being done to find out if tocilizumab, also known as Actemra™, can help with Amyotrophic Lateral Sclerosis (ALS). The investigators also want to find out if tocilizumab is safe to take without causing too many side effects. Currently ALS has no cure and 2 modestly effective treatment to slow the progression of the disease. Although not the initial cause of ALS, the immune system plays a role in the death of motor neurons. The immune cells that participate in this process are stimulated by a substance called interleukin-6 (IL-6) whose effect is blocked by tocilizumab and thus, may slow the death of motor neurons and slow the disease.
Most neurological injuries such as spinal cord injuries (SCI) and amyotrophic lateral sclerosis (ALS) spare a portion of nerve circuitry. Strengthening spared nerve circuits may be an important method to improve functional recovery. In this study, the investigators aim to use non-invasive magnetic and electrical stimulation to strengthen motor circuits between the brain and hands. Magnetic stimulation will be used over the motor cortex (scalp). Two methods of electrical stimulation will be compared: stimulation of the median nerve at the wrist; or direct stimulation of the cervical spinal cord across the skin on the back of the neck. Several different combinations of magnetic and electrical stimulation will be compared to find the conditions that best strengthen nerve circuits between the brain and hands - "Fire Together, Wire Together". PLEASE NOTE, THIS IS A PRELIMINARY STUDY. This study is testing for temporary changes in nerve transmission and hand function. THERE IS NO EXPECTATION OF LONG-TERM BENEFIT FROM THIS STUDY. If we see temporary changes in this study, then future studies would focus on how to prolong that effect.
The aim of this study is to evaluate the effects on MND patients of a new collar specifically designed for people affected by neck weakness: the Sheffield Support Snood.
Motor neurone disease (MND) is a rare but debilitating neurological condition that causes paralysis of the body's muscles leading to severe disability and eventually death. Patients often struggle to travel the long distances to specialist clinics to receive the care they require whilst this expert care is often unavailable in the community. Telehealth has the potential to enable a specialist team to monitor the health and wellbeing of patients and their carers whilst they are at home. This could improve the patient's health, improve the quality of life of both patients and their carers, and lead to more effective use of health resources. This is a randomised controlled pilot study that will involve 40 patients who are cared for by the Sheffield Motor Neurone Disease care centre and their main informal carer (a total of 80 participants). Half of the participants will use the telehealth system for a minimum of six months and maximum of eighteen months and information will be collected from patients, carers and their care team. This will include collecting clinical outcome measures, health resource use and the opinions and experience of using the system. All participants will continue to receive their usual care. This is a pilot study. It aims to determine the feasibility and acceptability of the telehealth system to patients, carers and their health care providers. It also aims to determine how a larger trial could successfully evaluate the clinical and cost-effectiveness of the system.
Amyotrophic lateral sclerosis (ALS) is a neuromuscular disease that results in rapid decline in normal muscle function and tone leading to difficulties with mobility, eating, drinking, breathing, sleeping, and communicating. The disease is progressive and no cure currently exists. Most people diagnosed with ALS succumb within 3 to 5 years. The only approved treatment to slow the progression of ALS is called Rilutek® (riluzole) which has only a modest effect and has been shown to increase survival by a few months. Muscular dysfunction present in people with ALS is caused by nerve breakdown and a dysfunction in the communication between the muscles and the nerves. The area where these communications occur is called the neuromuscular junction. Some recent studies have focused on using different medications to enhance communication at the neuromuscular junction with the goal of improving muscle function as a result. This approach is unproven but may help to slow the progression of the disease. Pimozide is a medication that has been demonstrated to enhance communication at the neuromuscular junction in fish and mice. This study will look at whether Pimozide may help to slow the progression of ALS and how much medication needs to be taken to have an effect.
This is an open label study with 30-day run in phase to establish baseline parameters, 90-day treatment phase, and a 90-day withdrawal phase to determine long-term effects, duration of treatment response, and potential effects of EPI-589 therapy on known trajectory.
This is a parallel group, single institution, prospective clinical study. The purpose of this study is to assess whether the Jawbone Up 24, a consumer based accelerometer, can be a feasible tool to study physical activity in cancer patients and patients with Amyotrophic Lateral Sclerosis (ALS).
This study evaluates the effect of retigabine (600 mg/day, 900 mg/day, or placebo) on motor neuron activity in people with Amyotrophic Lateral Sclerosis (ALS). The total study duration is approximately 14 weeks. ALS subjects will take study drug for approximately 10 weeks.