View clinical trials related to Multiple Sclerosis.
Filter by:To obtain additional safety data in subjects who have previously completed the MBP8298-01 study "A Double Blind Placebo Controlled Multi-Centre to Evaluate the Efficacy and Safety of MBP8298 in Subjects with Secondary Multiple Sclerosis" Dirucotide is generic name for MBP8298.
The investigators principal hypothesis is that INO and optic neuritis are objective, quantitative, and reproducible models for corroborating the hypothesis that changes in core body temperature are associated with the reversible and stereotypic decay in axonal conduction and that ACTHAR can serve to prevent such changes. The application of ocular motor and optic nerve measures appears to constitute a useful paradigm to detect and monitor responses to therapeutic strategies that stabilize nerve cell membranes in response to temperature induced decay in axonal conduction mechanisms, with implications on activities of daily life that are dependent upon vision (reading, driving, walking, work performance).
This study, 28851, is a long-term follow-up study of subjects enrolled in ATAMS study 28063, the aim of which is to monitor the safety and tolerability of atacicept administered for up to 5 years to subjects with relapsing multiple sclerosis (RMS). This extension study consists of two parts. Part A will be double blind and Part B will be open label. During Part A subjects initially randomized to atacicept will continue to receive the atacicept dose to which they have been randomized in study 28063 (ATAMS) once a week sub cutaneously (under the skin). Subjects randomized to placebo in ATAMS will receive atacicept at 150 mg once a week sub cutaneously during Part A. Once the results of ATAMS are available and the atacicept dose with the best benefit / risk ratio has been identified, all subjects will be switched to this dose and will continue the extension study open-label (Part B). Throughout the study, subjects and investigators will remain blinded with respect to intial and part A treatment allocation/dose.
The objective of this study is to explore the effects of darifenacin in patients with multiple sclerosis and neurogenic detrusor overactivity. The efficacy, safety and tolerability of darifenacin are already well established in idiopathic detrusor overactivity. Patients with multiple sclerosis and neurogenic detrusor overactivity without detrusor-sphincter-dyssynergia (DSD) will be allocated to darifenacin therapy.
The purpose of this study is to investigate the long-term safety, tolerability and efficacy of neramexane mesylate in the treatment of congenital idiopathic nystagmus (CIN). In addition, a subgroup of multiple sclerosis (MS) patients suffering from acquired nystagmus will be included.
The primary objective of the study was to evaluate the immunogenicity of Avonex® (interferon beta-1a) 30 mcg when administered subcutaneously (SC) to interferon-naïve participants with relapsing multiple sclerosis. The secondary objective of this study was to evaluate the safety and tolerability of Avonex® 30 mcg when administered SC to interferon-naïve subjects with relapsing MS.
Studying the effectiveness of a functional rehabilitation protocol (FRP) in early Relapsing Remitting Multiple Sclerosis (RRMS) patients treated with Betaferon by comparing the physical ability of patients with and without FRP.
Multiple sclerosis is a degenerative disease that affects more than 400,000 people in the US alone. MS is in fact the most common disabling neurological disorder in young adults. Symptoms of the disease can include problems with balance, walking, fatigue, weakness and vision. Over 85% of people with Multiple Sclerosis have problems walking. This can cause them to fall or have a constant fear of falling. To prevent falling, MS patients rely on equipment, such as walkers and canes. These costs can cause financial difficulties for MS patients and families. A significant problem that is only recently being studied is the relationship between falling and MS. Recent studies have shown that MS patients fall more often than those without MS, and also fall more than the elderly population. The consequent fear of falling is also an important problem, as those worried about falling will probably change their daily habits to lower their risk. This can mean keeping from certain physical and social activities or even staying indoors. Thus, falls and fear of falling can have negative medical, physical, psychological, and social consequences for the patient. Improving patients' walking may help reduce falls and the fear of falling. Treadmill training has been shown to improve walking in patients with MS and to lower their risk of falling. One way to train patients on a treadmill is with the use of robots that can help move their limbs in a more normal way. This kind of robot-assisted treadmill training may provide even greater benefits than treadmill training alone. The study is expected to last 6-7.5 months. One group of participants will receive weekly telephone calls and will be asked questions on other physical activities, falls, and activity limitations the patient had during the week. Participants assigned to robot-assisted treadmill training will receive twice weekly training session for 8 weeks, for a total of 16 sessions. Each session will last about 65 to 90 minutes. The goal of this study is to see if robot-assisted treadmill training will reduce falls and fear of falling in patients with MS. Robot-assisted treadmill training has been shown to be effective in reducing falls and fear of falling in Parkinson's disease patients. This type of training has not been tested in patients with Multiple Sclerosis. The proposed study will help to address this gap and also provide additional data on other possible improvements due to robot-assisted treadmill training including ambulation, social participation, fatigue, and balance.
The presence of foot drop limits normal gait. Our prior data has suggested that approximately 30% of MS patients have foot drop. Although we have observed that "task-specific" rehabilitation using the Lokomat can improve ambulation in chronic MS patients, subjects with "foot drop" have difficulty translating task-specific training to normative gait patterns over ground, despite improving speed and endurance. One of the key limitations of the Lokomat is a lack of robot-assisted training for the ankle joint. The Anklebot, an MIT-developed rehabilitation robot for the ankle, has the potential to address this. The device can move throughout three planes and train ankle flexion, extension, inversion and eversion; however, therapy with the Anklebot alone does not train the knee or hip. We plan to test whether subject foot drop and overall gait benefit more from Anklebot therapy alone or a combination of Anklebot and Lokomat.
The Immunological system is showing a diurnal rhythmicity. The Mediators that enhances inflammation are at highest level during the night. At the same time the endogenous production of cortisol is at its lowest. We want to study if there is a better effect of treatment with Methylprednisolone for acute MS-attacks if given at nighttime. The effect will be measured in relation to neurological deficits and function with Kurtzkes Expanded Disability Status Score (EDSS) and Multiple Sclerosis Functional Composite (MSFC). We want to see if the mean improvement in EDSS is greater in the group receiving treatment at night opposed to the group that get treatment during the daytime.