View clinical trials related to Multiple Sclerosis.
Filter by:Autologous hematopoietic stem cell transplantation (aHSCT) is the only treatment for refractory autoimmune diseases capable of inducing long-term, drug-free and asymptomatic remission. Over the past two decades, aHSCT has been used to treat inflammatory autoimmune disease of the CNS. Patients with relapsing-remitting multiple sclerosis benefit from aHSCT treatment. However, a certain percentage of patients still experience recurrence 3 or 5 years after transplantation. Therefore, exploration of conditioning regimens will drive therapeutic advances in aHSCT in autoimmune diseases of the CNS.
The aim of this pre-post observational study is to explore if it is feasible to implement 1) routine mental health screening and b) an online Cognitive Behavioural Therapy (CBT) treatment for anxiety and/or depression (named COMPASS-MS) for people living with Multiple Sclerosis (MS) (PwMS) and co-morbid psychological distress in routine care.
The purpose of this study is to investigate new quantitative MRI-sequences for assessment of age-specific data for the prediction of brain aging.
Current clinical follow-up of multiple sclerosis (MS) patients suffers from some challenges, as many patients indicate they want to take up a more active role in the decision-making process. However, more than half of MS patients do not consider themselves well informed about their disease. Communication between patients and healthcare professionals (HCPs) has also been reported to be suboptimal, with incorrect alignment between patients and HCPs as a result and relapses going undetected. Digital telemonitoring tools could play a role in educating MS patients, allowing them to take up a more active role in the clinical decision-making process. Additionally, remote monitoring could lead to a better alignment between patient and HCPs and could ultimately even lead to a more efficient clinical workflow. In this study, the investigators will investigate an existing digital telemonitoring solution called icompanion, developed by Icometrix. icompanion is a class 1 medical device in US (Food and Drug Administration - FDA) and Europe (Medical Device Directive - MDD). Using the icompanion MS app and website, patients can keep a diary, log symptoms, and perform tests for body function, cognitive function and fatigue based on clinically validated patient-reported outcomes (PROs). In addition, MS patients can add treatment information, from disease modifying therapies (DMTs) to symptomatic and rehabilitation treatments, and set reminders on when to take or perform their treatment. Furthermore, patients can easily upload their magnetic resonance imaging (MRI) scans (via the patient website) and view them (via the patient website and app) as well as learn about topics related to MS (e.g., MS types, MRI lesions). Finally, patients can prepare their consultations using a pre-visit checklist, the answers of which are also shared with the patient's clinical team. This study aims to evaluate the feasibility to use this app in a population of 100 MS patients in Antwerp, in three clinical centres. For this, the following objectives have been set forth: - The primary objective is to evaluate the usability and acceptance of a digital remote monitoring solution for MS (icompanion). - The secondary objectives are: 1. To evaluate the relationship between MS patients' subjective health experience, disease control and disease acceptation (by using the Health Monitor) and adherence and usability 2. To evaluate the impact of the use of the solution on the Health Monitor profile (reflecting patients' subjective health experience, disease control and disease acceptation) in a pre- versus post-intervention analysis 3. To evaluate the impact of the solution on the MS patients' disease self-management, by use of the Multiple Sclerosis Self-Management Scale-Revised (MSSM-R) 4. To evaluate the impact of the solution on the clinical visit workflow, by using visual analogue scales with custom questions about impact on workflow - The tertiary objectives are: 1. To evaluate the concordance between patient-reported and clinician-assessed values of some of the parameters collected by the icompanion default dataset (e.g., patient-reported Expanded Disability Status Scale (EDSS), daily steps), when available 2. To evaluate the app features most used by patient users 3. To evaluate the web portal features most used by HCP users
Cognitive rehabilitation is designed to enhance a person's capacity to process and interpret information and improve their ability to function in all aspects daily, family and community life. Given the clear and consistent documentation of cognitive deficits in persons with MS, the most notable deficit being information processing speed, learning and memory and executive function, there is an obvious need for effective cognitive rehabilitation. The proposed study will be a randomized controlled single-blinded trial with treatment and wait-list control group. The treatment group will be administered the Goal Management Training (GMT) program; the wait-list control group will be given usual care by their neurologist. Intervention details: The treatment group will receive in-person computerized cognitive rehabilitation (using the GMT program) (virtual training is optional) for 5 weeks (40-min sessions, twice per week), session will be tailored according to patient cognitive concerns at index assessment, and level of ability. The wait list control group, will not receive treatment Our primary outcome is information processing speed, secondary aims include learning and memory, and executive function. The minimal assessment of cognitive function in MS (MACFIMS) will be utilized to assess cognitive function. Additionally, tertiary aims include the following patient reported outcomes (PROs) will be collected: the hospital anxiety and depression scale (HADS), the modified fatigue impact scale (MFIS), the multiple sclerosis impact scale (MSIS-29), and the European quality of life (EQ-5D-5L) scale, to capture level of depression and anxiety, fatigue, impact of MS and quality of life. Cognitive performance of all patients in both groups will be assessed at baseline, immediate post-5-week assessment, and at post 6-month follow-up assessment. We hypothesized that, compared to persons in the wait-list group, the participants receiving the GMT intervention will demonstrate significant improvements across all cognitive measures. The wait-list control group will be given the option to receive the GMT intervention after the 6 months follow-up is complete. The individuals in the treatment group, wishing to continue with the GMT program, will be given a referral by Dr. Feinstein to a GMT certified therapist.
Progressive MS remains the most difficult therapeutic challenge. Remyelination is a promising therapeutic strategy but an effective pharmacologic intervention remains elusive. Remote ischemic conditioning (RIC) is a non-pharmacologic intervention that has been studied in the context of stroke, where transient limb ischemia leads to neuroprotection. However, RIC has not yet been studied in MS. The investigators hypothesized that repeating RIC over several days may induce molecular/cellular changes in the CNS that promote remyelination. Since RIC is safe, tolerable and ready for clinical translation (recent stroke trials have shown promise), the investigators will run a clinical study to test RIC in people with primary progressive MS. The purpose of this clinical trial is to determine if RIC in a dose of 4 cycles daily can prevent worsening of walking ability in people PPMS. The trial is funded through MS Canada as well as a private donation to the Hotchkiss Brain Institute MS Translational Clinical Trials Research Program and the University of Calgary. There is no sponsorship from the pharmaceutical industry.
This study is for people who have multiple sclerosis, acute leukemia (in remission), or long-COVID and a Body Mass Index over 27 and may struggle with cognitive issues such as remembering information, concentrating, or making decisions that affect everyday life. By doing this study, researchers hope to learn how liraglutide (Saxenda®), a weight loss drug, affects levels of a certain disease marker in the body called Brain Derived Neurotrophic Factor (BDNF). Participation in this research will last about 21 weeks.
This study aims to establish a link between urinary Sphingosine 1-Phosphate (S1P) levels and detrusor activity in multiple sclerosis (MS) patients. MS often involves urological symptoms, primarily overactive bladder. The gold standard for evaluation and treatment monitoring is invasive urodynamic testing. Preliminary research at Toulouse University Hospital suggests urinary S1P levels may be a potential biomarker for detrusor activity in MS. This study aims to confirm this potential biomarker's utility.
The study is an observational retrospective cohort study using longitudinal secondary data. Pregnant women with MS are assessed for exposure to Kesimpta and other MS disease modifying drugs (MSDMD) and followed up for adverse pregnancy and infant outcomes.
This study aims to evaluate the use of transcutaneous tibial nerve stimulation (TTNS) and parasacral nerve stimulation (PSS) methods in the treatment of overactive bladder (OAB) symptoms in patients with Multiple Sclerosis (MS), including urination frequency, urgency, urinary incontinence, post-void residue, maximum micturition rate. To investigate the effect on parameters such as voiding volume and quality of life and to compare the final results between groups.