The Comparison of Community Based Personal Training to Whole Body Vibration on Balance and Gait Parameters in People With Multiple Sclerosis
This study will compare the benefits of two community based exercise programs, personal training and whole body vibration on balance and gait in people with Multiple Sclerosis. Anyone with a diagnosis of MS can participate in the personal training. Only people who can walk with or without an assistive device with a diagnosis of MS can participate in the Whole Body Vibration. Pre testing and post testing will be completed using balance and gait measures and self reporting measures for balance confidence and impact of MS. The program will run two times per week for six weeks.
NCT03429062 — Multiple Sclerosis
Status: Withdrawn
http://inclinicaltrials.com/multiple-sclerosis/NCT03429062/
A Phase 1/2 Trial of Tauroursodeoxycholic Acid Supplementation in Progressive MS Patients
This study aims to identify the safety and tolerability of bile acid supplementation in patients with progressive Multiple Sclerosis (MS). Participants will also be assessed for an impact of the bile acid on their immune system and gut microbiome. Half of the participants will receive the bile acid tauroursodeoxycholic acid (TUDCA) and half will receive placebo. The investigators believe participants who take TUDCA will have normalization of blood bile acid levels, a normalization of abnormal immune response and a normalization of the gut microbiome.
NCT03423121 — Progressive Multiple Sclerosis
Status: Completed
http://inclinicaltrials.com/progressive-multiple-sclerosis/NCT03423121/
The Impact of Carnosine Loading and Rehabilitation Therapy on Exercise Capacity in Multiple Sclerosis.
Increasing evidence favours exercise therapy as an efficient tool to counteract inactivity related secondary symptoms in MS. Furthermore, exercise therapy may affect MS-associated muscle contractile and energy supply dysfunctions. So far, low to moderate intensity exercise rehabilitation has shown to induce small but consistent improvements in several functional parameters. High intensity exercise training in MS seems to further improve this. However, although results are promising, impairments in both muscle contraction and energy supply probably attenuate therapy outcome. In keeping with the above described physiological role of skeletal muscle carnosine and because muscle carnosine content may be lower in MS, the primary aim of the present project is to investigate whether carnosine loading improves exercise therapy outcome (exercise capacity, body composition) and performance in MS. If the latter hypothesis can be confirmed, muscle carnosine loading could be a novel intervention to improve exercise capacity and muscle function in this population.
NCT03418376 — Multiple Sclerosis
Status: Completed
http://inclinicaltrials.com/multiple-sclerosis/NCT03418376/
Cross-sectional Retrospective Study of Therapeutic Compliance in Patients With Multiple Sclerosis Treated With Interferon Beta-1b
The primary objective of the study is to evaluate the adherence to the treatment with interferon beta-1b, in patients diagnosed with isolated syndrome (CIS), relapsing-remitting multiple sclerosis (RRMS), or secondary progressive multiple sclerosis (SPMS) who had more than 6 months in treatment.
NCT03408093 — Multiple Sclerosis
Status: Completed
http://inclinicaltrials.com/multiple-sclerosis/NCT03408093/
Brain and Behavioral Influences on Motor Skill Learning in Multiple Sclerosis
Multiple Sclerosis (MS) is characterized by episodic attacks in which there are sharp declines in physical function. Although neurorehabilitation is the most promising clinical strategy for motor recovery in patients with MS, treatment responsiveness and outcomes are mixed. This is perhaps because each individual with MS has a different capacity to improve with rehabilitation, and this capacity may be based on a variety of baseline factors, such as disease duration, motivation, cognitive status and integrity of underlying brain structures. A better understanding of what "key ingredients" facilitate relearning of motor skills during neurorehabilitation is critically needed. Much of the focus of rehabilitation is on relearning motor skills. The initial stage of learning a motor skills often requires explicit concentration on the details of the movement. As one becomes more proficient in the motor skill, it becomes less attention-demanding and more automatic. Those who can perform motor skills more automatically will be better able to manage the additional demands of a secondary task; thus, capacity for dual-task performance can be used as an index of automaticity. Individuals with MS experience demyelination that impacts brain areas critical for motor learning. However, the specific clinical and pathological variables that facilitate capacity for motor learning in people with MS have not been identified. Identification of such variables could be leveraged to determine a patient's capacity to benefit from neurorehabilitation at the outset and potentially to maximize motor learning during rehabilitation for people with MS. Thus, there is an urgent need to determine the key ingredients most strongly associated with successful relearning of motor skills in MS patients. Our long-term goal is to develop individualized rehabilitation for persons with MS. Our overall objective in this application is to identify clinical and pathological variables associated with successful relearning of motor skills. Our central hypothesis, based on preliminary data, is that the ability to learn to make new movements automatically occurs over a dynamic range and is a function of available cognitive processing speed and the integrity of corticospinal tract and superior cerebellar peduncles. We will test these hypotheses by recruiting 146 individuals with relapsing-remitting MS to participate in a mechanistic trial not designed to be a therapeutic intervention. Participants will complete baseline testing (including neuroimaging, cognitive testing and dual-task performance) followed by 4 consecutive days of training on a challenging balance task. After a 2-day washout period, participants will return for post-testing (including dual-task performance on a dual-balance and working memory task). The rationale for the proposed research is that identification of key ingredients associated with the capacity for motor skill acquisition would allow for more targeted rehabilitation programming, thereby improving patient outcomes and reducing health care expenses. At the completion of the proposed research, we expect to understand more about the capacity for individuals with MS to improve with motor skill training, and some of the key ingredients that help predict successful shift toward task automaticity, one critical component of successful neurorehabilitation. The results of this proposal will facilitate the development of predictors of motor recovery, needed to improve rehabilitation outcomes for individuals with MS and other neurodegenerative diseases.
NCT03404388 — Multiple Sclerosis
Status: Enrolling by invitation
http://inclinicaltrials.com/multiple-sclerosis/NCT03404388/
Retinal Neuro-vascular Coupling in Patients With Multiple Sclerosis
Multiple sclerosis (MS) affects approximately 2.3 million patients worldwide, with a global median prevalence of 33 per 100,000. MS is diagnosed at an average of 30 years and affects twice as many women as men. MS is traditionally diagnosed by the presentation of lesions of the central nervous system, disseminated in time and in space, proven by clinical examination and magnetic resonance imaging. Several anatomical parameters in the eye, both vascular and neural, have been found to be altered in MS patients. Because of its unique optical properties, the eye offers the possibility of the non-invasive assessment of both structural and functional alterations in neuronal tissue. As the neuro-retina is part of the brain, it does not come as a surprise that neuro-degenerative changes in the brain are accompanied by structural and possibly also functional changes in the neuro-retina and the ocular vasculature. The current study seeks to test the hypothesis that beside the known anatomical changes, also functional changes can be detected in the retina of patients with MS. For this purpose, flicker light induced hyperemia will be measured in the retina as a functional test to assess the coupling between neural activity and blood flow. Further, structural parameters such as retinal nerve fiber layer thickness and function parameters such as ocular blood flow and retinal oxygenation will be assessed and compared to age and sex matched controls.
NCT03401879 — Multiple Sclerosis, Relapsing-Remitting
Status: Recruiting
http://inclinicaltrials.com/multiple-sclerosis-relapsing-remitting/NCT03401879/
Central and Peripheral Nervous System Changes as Markers of Disease Progression in Multiple Sclerosis
OBJECTIVE To investigate neurodegeneration and demyelination in the central and peripheral nervous system in multiple sclerosis linked to disease progression and mechanisms that can explain different responses to Fampridine treatment in MS patients with walking disability. METHOD The study is a prospective cohort follow-up study with 98 participants with MS and walking disability. Participants are identified as responders or non-responders to Fampridine treatment prior to the study. Participants will undergo MRI of the cerebrum with lesion load quantification, neurophysiological tests comprised of motor evoked potentials and electroneurographic examination, blood samples examining KIR4.1 antibodies, brain derived neurotrophic factor (BDNF), myelin protein zero (MPZ), peripheral myelin protein 22 (PMP22), p75-nerve growth factor receptor (p75NGFR) and anti-myelin associated glycoprotein (anti-MAG). The presence of SORCS-3 gene mutation will also be examined, as will cerebrospinal fluid levels of myelin basic protein, neurofilament heavy and light chains. Functional test of Timed 25-foot walk test (T25FW) will identify response to Fampridine treatment. A functional test battery will further detail function of upper extremities and cognition. CONCLUSION This study will add to the understanding of neurodegeneration and demyelination in CNS and PNS in patients with MS having walking disability. This will impact clinical decision-making by improving organization of immunomodulatory treatment, identifying biomarkers thus facilitating earlier treatment and improving patient control, information and education.
NCT03401307 — Multiple Sclerosis
Status: Completed
http://inclinicaltrials.com/multiple-sclerosis/NCT03401307/
An Observational Study Utilising Data From the US Tysabri TOUCH Programme and Select EU MS Registries to Estimate the Risk of Progressive Multifocal Leukoencephalopathy (PML) and Other Serious Opportunistic Infections Among Patients Who Were Exposed to an MS Disease Modifying Treatment Prior to Treatment With Tysabri
The primary purpose of this study is to estimate the incidence of progressive multifocal leukoencephalopathy (PML) among patients who switched to Tysabri from disease modifying therapies (DMTs), including newer DMTs (including fingolimod, dimethyl fumarate and teriflunomide) and the established DMTs (interferon beta and glatiramer acetate). Researchers will also look to estimate the incidence of other serious opportunistic infections among patients who switch to Tysabri from newer DMTs (including fingolimod, dimethyl fumarate and teriflunomide) and the established DMTs (interferon beta and glatiramer acetate)
NCT03399981 — Progressive Multifocal Leukoencephalopathy
Status: Completed
http://inclinicaltrials.com/progressive-multifocal-leukoencephalopathy/NCT03399981/
Efficacy of tDCS on Pain Experience in People With Multiple Sclerosis: A Pilot Randomized Control Trial
Pain is a common symptom experienced by people with MS and can significantly interfere with participation in the activities of daily living and adversely affect health-related quality of life. Pain in people with MS has the potential to become chronic, as a consequence of neuronal reorganization. Transcranial Direct Current Stimulation (tDCS) promotes the modulation of brain activity and its prolonged and continuous application can effect plastic modification. Combining tDCS with rehabilitation treatment may have effect in reducing pain in people with MS. This is a pilot randomized control trial to test the effects of tDCS in MS-related pain rehabilitation, its efficacy on pain (intensity, quality, interference with physical functioning), catastrophizing, emotional functioning and quality of life. Furthermore, we will explore the effects on pressure pain threshold and EEG recording. Correlations between sample characteristics and pain features will be investigated. Considering role of tDCS on neuropsychological functions, selective attention will be assessed.
NCT03389217 — Multiple Sclerosis
Status: Recruiting
http://inclinicaltrials.com/multiple-sclerosis/NCT03389217/
A Phase 3 Randomised, Double Blind, Clinical Trial Investigating the Effectiveness of Repurposed Simvastatin Compared to Placebo, in Secondary Progressive Multiple Sclerosis, in Slowing the Progression of Disability
Multiple Sclerosis (MS) is a progressive neurological disorder of the brain and spinal cord. It affects approximately 120,000 people in the United Kingdom and 2.5 million people globally. Most people with MS experience two stages of the disease: Early MS - Relapsing-Remitting MS (RRMS), which is partially reversible, and Late MS - Secondary Progressive MS (SPMS), which affects the majority of patients, usually after 10 to 15 years after diagnosis. SPMS results from progressive neuronal degeneration that causes accumulating and irreversible disability affecting walking, balance, manual function, vision, cognition, pain control, bladder and bowel function. The pathological process driving the accrual of disability in SPMS is not known at present. Immunomodulatory anti-inflammatory disease modifying therapies (DMTs) are increasingly effective in reducing relapse frequency in RRMS, however, they have been unsuccessful in slowing disease progression in SPMS. This is the overwhelming conclusion from an analysis of 18 phase 3 trials (n=8500), of which 70% of the population had SPMS, all performed in the last 25 years. There is no current disease modifying treatment (DMT) for SPMS. In an earlier study (Multiple Sclerosis-Simvastatin 1; MS-STAT1), 140 people with SPMS were randomly assigned to receive either placebo or simvastatin for a period of two years. The investigators found that the rate of brain atrophy (loss of neurons - 'brain shrinkage'), as measured by magnetic resonance imaging (MRI), was reduced in patients receiving simvastatin compared to those taking placebo. Several other long term studies have also reported that there might be a relationship between the rate of brain atrophy and the degree of impairment. The study is designed to test the effectiveness of repurposed simvastatin (80mg) in a phase 3 double blind, randomised, placebo controlled trial (1:1) in patients with secondary progressive MS (SPMS), to determine if the rate of disability progression can be slowed over a 3 year period. The results generated from this trial may help to improve the treatment options of people with MS. In addition, taking part in this trial will mean regular review by an experienced neurologist regardless of the drug that patients are randomly allocated to receive.
NCT03387670 — Secondary Progressive Multiple Sclerosis (SPMS)
Status: Active, not recruiting
http://inclinicaltrials.com/secondary-progressive-multiple-sclerosis-spms/NCT03387670/