View clinical trials related to Sclerosis.
Filter by:This is a non-interventional, cross-sectional, multicentric, and nationwide study, based on primary and secondary data collection.
Multiple sclerosis (MS) is a chronic autoimmune disease of the central nervous system (CNS) characterized by inflammation, demyelination, gliosis, and neuronal loss. Neurological symptoms may include visual disturbances, numbness and tingling, focal weakness, bladder and bowel incontinence, and cognitive impairment. Some previous studies have indicated that the NeuroBiofeedback (NBF) technique could be a promising new treatment for the rehabilitation of many neurological disorders and neurodegenerative diseases, including MS. Several studies have investigated the beneficial effects of this technique on the motor and cognitive outcomes of MS, mainly aiming to evaluate motor performance, fatigue and chronic pain. Few studies have focused on the evaluation and treatment of cognitive processes with NBF, except for one study on information processing speed. Specifically, regarding the application of NBF techniques in MS, recent literature has demonstrated that modulation of the alpha-theta rhythm has led to an improvement in attentional processes with consequent reduction in anxiety. Therefore, the objective of this study is to verify the effectiveness of NBF training on the modulation of cortical activity and physiological responses through the exposure of subjects with MS to cognitive tasks and training for mood regulation.
The project will involve a within-subjects, repeated-measures research design. Participants will initially be screened for relevant inclusion/exclusion criteria for maximizing safety of participating in an exercise study. If a participant meets those inclusion/exclusion criteria, they will visit Kessler Foundation three times. The first visit will involve a baseline session where participants will complete several cognitive tests. This will be followed by a training session, where participants will be provided with a FitBit, and will be trained by research staff to walk at a rate of 100 steps per minute. Once participants demonstrate proficiency at walking at this rate using the FitBit, participants will complete several questionnaires, followed by a maximal, graded exercise test to determine cardiorespiratory fitness. One week later, participants will return to Kessler Foundation to complete 1 of 2 experimental sessions that will be delivered in a random order that further will be counterbalanced across participants (to minimize the potential effects of session order on brain function and blood flow, respectively). Both experimental sessions will follow the same structure. First, participants will undertake a 30-minute MRI scan at Kessler Foundation to measure brain function and brain blood flow. Immediately following the MRI scan, participants will engage in either 20 minutes of treadmill walking exercise or 20 minutes of overground walking exercise at a rate of 100 steps per minute. Immediately following the 20-minute exercise bouts, participants will undertake another MRI scan for measuring brain function and brain blood flow. Participants will return to Kessler Foundation a third time to complete the opposite experimental session that was not completed during the second visit (i.e., overground walking exercise if treadmill walking exercise was completed during the second visit). In total, each participant will undergo four MRI scans over the course of the study (i.e., pre-treadmill, post-treadmill, pre-overground, post-overground). .
Multiple Sclerosis (MS) is a chronic, inflammatory, demyelinating, autoimmune disease of the central nervous system. Despite functional limitations and unpredictable disease course, individuals with MS are aimed to maintain different levels of independence according to the level of disability. It is aimed to develop interventions that aim to increase self-efficacy levels and participation in daily life in individuals with this diagnosis. The "Unidimensional Self-Efficacy Scale for Multiple Sclerosis (USE-MS)" is a self-efficacy scale developed specifically for individuals with MS and answered based on patient declaration. The aim of this study is to adapt the "USE-MS" scale into Turkish and to establish its validity and reliability.
ActiALS is a multicentric academic study. Patients with amyotrophic lateral sclerosis (ALS) may be included on a voluntary basis. The investigators plan to include a group of approximately 30 patients with ALS. The investigators have planned to assess patient every three months for a year. After each visit, participants will wear Actimyo for one month daily.
Retrospective, non-interventional case-control study, the patients were asked about their first lower-urinary tract symptoms and the date of their onset, using a structured interview. The information was matched with the medical records.
The main purpose of this study is to evaluate the safety and efficacy of LY3541860 in adult participants with multiple sclerosis that gets worse and gets better. The study will last about 9 months with additional 6 months follow-up.
The purpose of this study is to evaluate the safety, tolerability, efficacy, and drug levels of CC-97540 in participants with Relapsing Forms of Multiple Sclerosis (RMS) or Progressive Forms of Multiple Sclerosis (PMS).
The aim of this study is to describe the changes in the neuromuscular connection in patients with amyotrophic lateral sclerosis (ALS). The study consist of three substudies that have the following main hypothesis: 1. that ALS patients do not demonstrate equal capacity for muscle reinnervation and that reinnervation preserves muscle function and thereby slows down progression. 2. that blood concentrations of c-terminal agrin fragment (bCAF) reflect neuromuscular transmission deficiency and that blood concentration of neural cell adhesion molecule reflects degree of muscle denervation in patients. 3. that ALS patients with decrement when examined with repetitive nerve stimulation have more physical fatigue, slower progression, higher degree of reinnervation and higher bCAF compared to ALS patients without decrement. There will be 3 inclusion groups. 1. patients referred for neurophysiological examination on suspicion of motor neuron disease. 2. healthy controls 3. disease control: patients with another motor neuron disease with slow progression. All participants will be invited for at least 1 visit (baseline). If participants in group 1 eventually receive the diagnosis of ALS they will be invited for 2 additional visits 4 og 8 months after baseline visit, respectively. Examinations will consist of: - nerve conduction study - repetitive nerve stimulation (except for healthy controls) to examine impairment of the neuromuscular connection. - motor unit number estimation with MScanFit to estimate number and size of motor units. - ultrasound examination of muscles to measure size and condition of muscles. - questionnaires on fatigue and functional status. - blood sample for measurement of specialized analysis (c-terminal agrin fragment and neural cell adhesion molecule) and routine analysis (liver and kidney function as well as neurofilament light chain) - muscle strength assessment manually and by dynamometer to follow progression of muscle weakness - bioelectrical impedance measurement to follow the overall body composition.
Academic research project monitoring the effect of Autologous Hematopoietic Stem Cell Transplantation (AHSCT) on multiple sclerosis-associated lower urinary tract symptoms.