View clinical trials related to Multiple Sclerosis.
Filter by:The goal of this clinical trial is to test an innovative telerehabilitation protocol in people with Chronic Neurological Disorders (Parkinson's disease, Multiple Sclerosis, and post-stroke). The main questions it aims to answer are 1)the usability and acceptability of the system; 2)the level of safety of intervention; 3) the efficacy of the telerehabilitation protocol. Participants will be randomized (with an allocation ratio of 1:1) into either the experimental group (20 sessions of motor telerehabilitation with digital and robotic tools) or the active control group (20 motor rehabilitation sessions performed at home according to the usual care treatment procedure). Researchers will compare the experimental group and the active control group to see if the TR protocol with digital and robotic tools is effective in reducing the perceived level of disability.
To investigate the effect of adding cognitive behaviour therapy to supervised Pilates-based core stability training on balance, walking, fatigue and function in patients with multiple sclerosis
Background: Replications of studies employing transcranial direct stimulation (tDCS) shows great variations in physiological and behavioral outcomes. The disparity between studies is based on the expectations of getting the same cortical activity changes consistently once the procedures and current parameters have been repeated. Nevertheless, this assumption was inoperative, due to the individualized variations of numerous parameters such as: age, disease type, symptom severity, head geometry, etc. Objective: Through this clinical trial we aim to reduce the variability of the physiological and behavioral outcomes of tDCS by individualizing the current intensity and to study the neurophysiological and behavioral outcome differences between participants who receive the customized current intensity in comparison to the others who would receive a fixed dose. Methods: Based on individual patient's structural MRI images, the Electrical field (E-field) distribution can be modeled and the individualized current dose to stimulate a target region can be determined. A group of thirty persons with multiple sclerosis (PWMS) would be pseudo-randomized into three groups receiving all 3 treatments of individualized tDCS, fixed currents (2 mA), and sham tDCS. Baseline and post-intervention assessment of physiological and behavioral outcome measures will be assessed using respectively, transcranial magnetic stimulation (TMS) recruitment curve and a stop-signal task and GO/No-go test. Significant statement and clinical relevance: Individualizing the patient's tDCS current intensity will result in a better clinical outcome (i.e. more robust physiological and behavioral effects), as compared to a tDCS application that is based on a fixed current.
The main purpose of this study is to assess the usability and value of the multiple sclerosis (MS) care management platform in terms of improved monitoring of people with MS (pwMS) in clinical practice. This is a two-year prospective data collection study with additional data collection at baseline evaluating medical practice over a period of at least one year before the introduction of the MS care management platform.
Spinal cord injury (SCI) and multiple sclerosis (MS) are both conditions characterized by chronic inflammation as indicated by elevated levels of circulating pro-inflammatory cytokines. These cytokines can have a wide array of negative impacts such as increasing the risk of depression and the intensity and frequency of neuropathic pain. Recent work in the investigator's laboratory has shown that a 3-month anti-inflammatory diet is not only effective in reducing pro-inflammatory cytokines, but also in reducing depression and neuropathic pain, by approximately 55% and 40%, respectively. However, a one-year follow-up study from the investigator's lab showed such adherence to be very challenging and therefore, strategies are required to address barriers to healthy eating in those with neurological disability. Accordingly, the investigators have developed a modified anti-inflammatory diet (Mad Dog diet) that is more palatable, less expensive and less demanding, as well as a 2-part pre-diet consultation that effectively increased self-efficacy for dietary adherence, and actual adherence one month post-consult. Still, participant feedback suggests that further efforts are needed to help ensure long term adherence to anti-inflammatory diets for those with neurological disability. As such, the investigators have developed the 6-week Mad Dog cooking series. This series consists of a once-weekly cooking class and educational session where a group of individuals with neuromuscular disability can come together to learn about the health benefits of an anti-inflammatory diet, receive instruction on how to cook selected anti-inflammatory recipes, and experiment with various pieces of accessible kitchen equipment that may increase their meal preparation skills. The purpose of this study is to test the 6-week Mad Dog cooking series in individuals with neuromuscular disability to gauge consumer satisfaction and make preliminary measures on self-efficacy for adhering to the Mad Dog anti-inflammatory diet, as well as actual adherence 6 months after the series has been completed. The investigators will also determine if the series has any effect on depressive symptoms.
Nine Multiple Sclerosis (MS) patients suffering an acute relapse from the outpatient or inpatient settings will be consented to be followed prospectively for three months post relapse, in an effort to identify markers of incomplete relapse recovery. Factor VIII-related labs will be drawn for three months without influencing standard of care treatment decisions. During this time, patients will be followed with clinical and diagnostic assessments in addition to blood tests including: Expanded Disability Status Scale (EDSS), Multiple Sclerosis Functional Composite (MSFC), recovery surveys, and MRIs of the brain, cervical spine, and thoracic spine with and without contrast. Clinical, imaging, and Factor VIII-related lab data individually or in aggregate will be correlated with relapse presence, severity, and extent of recovery following standard treatment interventions.
The objective is to explore the potential short and long-term impact of the Exopulse Mollii Suit on subjects with CP, MS, stroke, SCI or other neurological disorders which may cause such types of symptoms, and to identify high responders among the sub-categories of the diagnoses. The primary endpoint will be improvement on the Berg/Pediatric Balance Scale (BBS) as a measurement of balance and risk of falls.
Multiple Sclerosis (MS), causing damage to myelin sheath and axons; It is a chronic disease with diffuse demyelinating lesion of the Central Nervous System (CNS) that often affects young adults, progresses with attacks and remissions, and may bring about functional limitation, disability or decrease in quality of life. The fact that Multiple Sclerosis is chronic and irreversible, the uncertainty and destructiveness of the disease process affect individuals physically over time, but it can also cause many negative symptoms from a mental perspective. Studies have shown that MS disease; anxiety, depression, loss of life purpose, intense hopelessness and suicide. Life purpose has been defined as struggling to achieve one's goals and creating meaning against existential neurosis. Having a life purpose increases the subjective well-being, life satisfaction and hope level of individuals. According to the Turkish Language Association, hope, which is defined as "the feeling of trust arising from hope" and which indicates the feeling of having positive expectations for the future, positively affects mental health by giving people the feeling that they can cope with negative experiences that they may encounter in the future. Hopelessness, which is the opposite of hope, is a feeling that causes mental problems such as depression and suicide as well as negatively affecting the mental health of the individual and is a part of these clinical pictures. Setting a life purpose has positive effects on hope. While a purposeful life increases the level of hope in people, it reduces hopelessness and causes the person to live a more meaningful life. The decrease or loss of hope and the purpose of life can cause significant problems for people such as depression, addiction or suicide may occur in people who have lost their life purpose and hope. Positive psychotherapy (PPT), one of the psychosocial-based intervention methods, is a therapy method with a humanistic approach, the theoretical foundations of which were established by Pesesschkian in 1970. There are three basic principles of therapy: hope, balance and consultation. In Positive Psychotherapy, the symptoms and ailments in the person; It is positively reinterpreted, emphasizing real talents. Sharing the function of the existing symptom with the client increases the client's acceptance and hope for himself and his situation, which in turn activates the hope principle.
The goal of this clinical investigation is to evaluate the effectiveness of home use of a lightweight robotic lower limb exoskeleton as a walking aid device on quality of life in patients with multiple sclerosis with gait disorders. Participants will wear an exoskeleton (Keeogo) for 8 weeks at home during the experimental phase. This phase is compared to an 8-week control phase at home with advice on regular physical activity adapted to their abilities.
In multiple sclerosis (MS) brains, inflammation induces specific abnormalities of synaptic transmission, collectively called inflammatory synaptopathy. Such synaptopathy consists in unbalanced glutamatergic and GABAergic transmission and in remarkable changes in synaptic plasticity, causing excitotoxic neurodegeneration and impairing the clinical compensation of the ongoing brain damage, thereby exacerbating the clinical manifestation of the disease. In progressive MS (PMS), synaptopathy is characterized by pathological potentatiation of glutamate-mediated synaptic up-scaling (Centonze et al., 2008; Rossi et al., 2013) and loss of long-term synaptic potentiation [LTP (Weiss et al., 2014)], both caused by proinflammatory molecules (released by microglia, astroglia, and infiltrating T and B lymphocytes) (Malenka et al., 2004; Di Filippo et al., 2017; Stampanoni Bassi et al., 2019). The combination of increased up-scaling and decreased LTP has a significant impact on the clinical manifestations of PMS, often presenting with signs and symptoms indicating length-dependent degeneration of neurons of the corticospinal tract. Altered LTP expression impairs brain ability to compensate ongoing neuronal loss (Stampanoni Bassi et al., 2020), and pathological TNF-mediated up-scaling may directly promote excitotoxic damage and neurodegeneration (Rossi et al., 2014). In addition, up-scaling and LTP are mutually exclusive at a given synapse through a mechanism of synaptic occlusion (i.e., pre-existing up-scaling saturates and prevents subsequent LTP expression), further promoting neurodegeneration by preventing the pro-survival effect of LTP, the induction of which activates intracellular anti-apoptotic pathways (Bartlett & Wang, 2013). It follows that a neuromodulation approach that can chronically (over several months) dampen up-scaling expression in the primary motor cortex (M1) of PMS patients could be beneficial by preventing excitotoxic neurodegenerative damage triggered by up-scaling itself (Centonze et al. 2008, Rossi et al. 2014), and also by promoting LTP induction and LTP-dependent functional compensation of deficits, thereby reducing the speed of the neurodegeneration process through increased LTP-dependent neuronal survival and preservation of dendritic spines (Ksiazek-Winiarek et al., 2015). Our study aims to test whether transcranial static magnetic field stimulation (tSMS) could represent such a therapeutic approach, as recently proposed in patients with amyotrophic lateral sclerosis (ALS) (Di Lazzaro et al, 2021). Forty (40) ambulatory patients with PMS, presenting with the ascending myelopathy phenotype of the disease, will be recruited at the MS Center of the Unit of Neurology of the IRCCS Neuromed in Pozzilli (IS). In this randomized, sham-controlled, double-blind, within-subjects, cross-over study (allocation ratio 1:1), we will test the ability of repeated sessions of tSMS applied bilaterally over the M1 to safely reduce disability progression in patients with PMS. Patients will be randomly assigned to either real or sham tSMS. Each patient will participate in two experimental phases (real or sham stimulation). Each patient will self-administer tSMS over right and left M1, two session per day, 60 minutes each. The order will be randomly established and counterbalanced across participants. Both investigators and participants will be blinded to stimulation parameters. In the "real stimulation" phase, tSMS will be applied for 120 minutes each day, at home, for 12 consecutive months. In the "sham stimulation" phase, sham tSMS will be delivered with non-magnetic metal cylinders, with the same size, weight and appearance of the magnets. Clinical evaluations, including the Multiple Sclerosis Functional Composite measure (MSFC) will be performed before, during and after each experimental phase ("real" and "sham"). In addition, blood levels of neurofilaments, excitability and plasticity of M1, and MRI measures of cortical thickness will be measured before, during and after each stimulation phase.