View clinical trials related to Multiple Sclerosis.
Filter by:Multiple sclerosis (MS) is a chronic inflammatory disease of the central nervous system and the most common cause of non-traumatic disability in young adults (Kamm et al. 2014; Vanbellingen & Kamm, 2016). It is a heterogeneous disease, which is associated with long-term disability, leading to reduced quality of life (QoL). Disease-modifying pharmacological therapies (DMT) decrease activity and progression of the disease, and symptomatic pharmacological treatments reduce complaints to a certain extent, however MS patients often still suffer from various neurological deficits during the course of their disease (Kamm et al. 2014). Consequently, specific non-pharmacological therapies are needed in order to further reduce disability, eventually resulting in better QoL (Lamers et al. 2016; Vanbellingen & Kamm, 2016). Impaired dexterity is a frequently observed impairment, affecting up to 76% of patients with MS (Johannson et al. 2007). The different neurological deficits caused by MS, such as ataxia, spasticity, sensory-motor deficits, and apraxia may be alone or in combination, impair manual dexterity (Kamm et al. 2012; Heldner, Vanbellingen et al. 2014). MS patients experience impairments in the performance of several activities of daily living (ADL), such as grooming, cooking, etc. Sometimes these problems are even associated with loss of work, and lack of social integration (Chruzander et al. 2013). The effectiveness of the app based exercises still needs to be proven. With respect to dexterity, a first new app has been developed called "Finger Zirkus", by a team of experts including an occupational therapist, graphic designer, and IT expert. The app is already available to be downloaded from google play store or apple store (see for more details: www.fingers-in-motion.de).
Multiple sclerosis (MS) is a leading cause of neurological injury in young adults. Capturing the extent of multiple domains of MS-related disability is critical for effective clinical care and the development of new paradigms for patient-focused therapeutic approaches. To date outcomes research in MS has centered on clinical exams, which may be insensitive over the short term (the 1-2 years of early stage clinical trials) and only capture a single snapshot of the patient's performance. With the mass production of sensors in the gaming and computer control industry, there is an opportunity to transform the traditional neurological exam with biosensors already in use outside the realm of health applications. The investigators herein propose to use a commercialized wearable electroMYOgraphy sensor (MYO,Thalamic Labs Inc, Kitchener, ON, Canada) for detection of upper and lower limb dysfunction in MS patients. The investigators will determine if the device can differentiate the diseased states, refine signal processing algorithms to create reliable outcomes using this device in MS patients, and determine if these outcomes are strongly associated with patients and physicians reported ambulatory and dexterity metrics. The investigators hypothesize that this digital technology may be introduced in the standard neurological exam technique in a non-disruptive manner and more accurately and potentially remotely detect both physician-reported and patient-reported disability. In the scope of this study, the investigators will also develop signal processing methodology to comprehensively track ambulation features.
The main purpose of the study was to determine the onset of Mavenclad® action by frequent magnetic resonance imaging (MRI) assessment of the combined unique active (CUA) lesions in participants with highly active relapsing multiple sclerosis (MS).
People with MS commonly experience extreme fatigue that negatively impacts their ability to engage in a full range of daily activities, quality of life, and employment. A new website called MS INFoRm (Multiple Sclerosis: An Interactive Fatigue Management Resource) allows people with MS to take a personalized and active approach to learning about and managing their fatigue. The aims of this study are: 1. To determine to determine whether 3-month use of the MS INFoRm website can reduce the impact of fatigue on daily life among persons with MS. 2. To determine whether 3-month use of the MS INFoRm website results in improvement in self- efficacy/ confidence for managing MS fatigue, self-reported cognitive function, participation and autonomy/ independence, and depression. 3. To determine whether benefits are maintained among the MS INFoRm users after 6-months.
A medical record review of historic and current information on 237 patients attending 5 tertiary referral centers [Kasr Al-Ainy Multiple Sclerosis Research Unit (KAMSU) - Cairo University Hospitals, Abo El Reesh Pediatric Hospital and 3 private centers] in Cairo, Egypt from period between 2011 and December 2015. Initially, medical records of 251 patients with the first acquired demyelinating events started before age of 18 years were reviewed. Fourteen patients (5.58%) were excluded due to missing data that could not be obtained.
To look at the prognostic value of new biomarkers in CSF and serum for characterisation of multiple sclerosis
This is a phase II, double-blinded, placebo-controlled, randomized, cross-over Study designed to determine the efficacy of multiple intrathecal administrations of autologous mesenchymal stem cell-derived neural progenitor cells (MSC-NP) compared to placebo in patients with progressive multiple sclerosis. Efficacy will be measured through assessment of disability outcomes. Study participants will receive six intrathecal injections of culture-expanded autologous MSC-NPs at two month intervals in one year and six lumbar punctures as placebo treatments in a second year.
Multiple Sclerosis (MS) is often characterized by the presence of balance and cognitive impairments. Cognitive functions play a key role in balance control. Simultaneously performing cognitive tasks decreases walking and balance ability (Dual-Task cost). Rehabilitative treatment of patients with MS does not have to consider separately the motor and cognitive aspects. Video-Game Therapy (VGT) is a novel tool that allows a multimodal training approach. VGT typically provides augmented feedback during training that can contribute to learning motor skills. The main objective of this exploratory study will be to test the effects of a commercially available VGT on balance and cognitive function in ambulatory MS patients compared to a standardized balance platform training (BPT). Secondary, we will explore the effects of VGT and BPT on other domains that are usually impaired in MS population and that can be improved by motor rehabilitation, such as psychological well-being, fatigue and Quality of Life.
The purpose of this study is to investigate the safety of subcutaneous (SC) interferon beta therapies with regard to frequency of injection site reactions (ISR) and flu-like symptoms (FLS) as reported by the relapsing-remitting multiple sclerosis (RRMS) participants.
This study evaluates the effects of a 10-week inspiratory muscle training on the outcomes of respiratory muscle strength, fatigue, activity participation, and respiratory infection rates in persons with advanced Multiple Sclerosis (MS). Participants will perform daily exercise using the Threshold Inspiratory Muscle Trainer (IMT) device during the training period. The study will assess whether the participants improve after the training, and whether the effects can be maintained after the training ends.