View clinical trials related to Multiple Sclerosis.
Filter by:The trial consists of a dose escalation, to establish the safety of ofatumumab in RRMS patients. A 48-week treatment period followed by an individualized follow-up period until normalization of peripheral B-cell counts or Immunoglobulin G (IgG) levels.
Participants (n=20) will be identified at routine care visits performed at the Rochester Multiple Sclerosis Center. Eligible participants will have MS by McDonald Criteria,7 and will have a modified Ashworth spasticity rating8 of two or higher in at least one lower extremity muscle group. Participants will be seen at screening, one, and three months, and will be evaluated using the modified Ashworth scale,8 pendulum test,9 toe tapping test,10 manual muscle testing,11 timed 25 foot walk,12 and Multiple Sclerosis Functional Composite.13 The type and severity of any adverse events will be recorded using standard definitions. Participants will be instructed to call between visits to inform the investigators regarding any adverse events they experience. Follow-up will continue until all adverse events resolve or stabilize.
Determine the in-vivo mechanism of action of INF-B-1b as it's mechanisms of action are not completely understood. We propose that high dose exogenous recombinant IFN-B-1b induces tolerizing effect on DC-dependent T-cell differentiation in patients with MS by inducing the expression of SOCS3 in DCs.
A clinical study to evaluate the efficacy and safety of solifenacin in patients with bladder symptoms due to spinal cord injury or multiple sclerosis
The purpose of this study is to see if treatments that include components of self-hypnosis training and cognitive behavioral therapy (CBT) can help decrease pain in people with MS.
To assess patient satisfaction with respect to the incidence of flu-like symptoms (FLS) in patients with multiple sclerosis transitioned from current Rebif (subcutaneously injected interferon beta-1a, 44 mcg three-times-weekly) to the new formulation of Rebif (RNF) while receiving ibuprofen either prophylactically or only when necessary (PRN) after the occurence of flu-like symptoms.
The purpose of this trial is to examine the benefits of early combination of CellCept® with Rebif® in long-term management of patients with multiple sclerosis. Quantitation of mRNA for MxA gene from ex-vivo lymphocytes obtained from patients receiving both drugs or interferon alone will be used to gauge the usefulness of this combination therapy. In addition we will examine the safety of combination of mycophenolate mofetil and interferon beta 1a in treatment of multiple sclerosis. This is a pilot study to examine if the combination of CellCept® with Rebif® will prove to be useful in the early treatment of patients with MS. Up-regulation of the MxA gene following the administration of Rebif® will be used as a surrogate marker of interferon bioactivity. This in turn could serve as a surrogate marker of interferon efficacy in these patients. The null hypothesis is that there will not be any difference in the proportion of patients that produce MxA gene transcripts in the Rebif® group as compared to the group that received Rebif® with CellCept® at the end of this study (1 year). The alternate hypothesis is that the combination of CellCept® with Rebif® will prove to be useful in prolonging the efficacy of interferon. In other words, the combination will result in a significant proportion of patients in the treatment group continuing to produce MxA as compared to the proportion of patients producing MxA in the Rebif® arm.
The purpose of this study is to see if we can find a new way to test how certain Multiple Sclerosis (MS) medications work in the body and to better understand how the medicines change certain substances (cells) found in the immune (protective) system. Blood test will be drawn by doing the following: - Use a new method called the "Immuknow®" Test to see if this method will help to better understand how MS medicines work. - Measure certain levels of immune cells in a new way, to see if it this will help to understand the body's response to MS medicines. These methods will test those with MS who are not taking any MS medications, to help us compare the results. About 100 subjects will be enrolled in this study at the Partners Multiple Sclerosis Center at Brigham and Women's Hospital. Biogen Idec, Inc. of Cambridge, MA, is paying for this study to be done.
Motor imagery is a technique widely used in learning skills. Its effectiveness has been proven in various sports and in musicians. A recent review (Braun et al. 2006) suggested that this technique may also be effective in rehabilitation of patients with neurological disease or damage, but that further research was needed. The main purpose of this research is to discover whether motor imagery practice is beneficial in the rehabilitation of skills in patients who have some disability due to neurological disease or damage. The principal research question is: are physiotherapy and occupational therapy given incorporating motor imagery more effective than standard care (i.e., the same therapies but without integrated motor imagery) in re-training task specific performance for patients with neurological disease or damage?
The definition of the most 'at-risk' population within highly susceptible groups would provide an opportunity for preemptive therapeutics. A convenient, safe, and tolerable therapy that delays the onset of clinical disease during the pre-symptomatic stage of demyelinating disease would provide a therapeutic alternative to a 'wait and see' approach in subjects at 'high risk' for CIS (clinically isolated syndrome - monosymptomatic demyelinating disease) or MS. Identical twins share the same genes and have the highest rate of shared MS. An identical female with a sister twin with MS has a 34% chance of having MS. Non concordant (no MS yet) identical (monozygotic - from the same sperm-egg zygote) female twins provide an ideal population to find out what factors predict the onset of MS in the non-affected twin. We will recruit 30 identical female twins, one with MS and the other without MS, and obtain brain MRI and biological samples on the non-affected twin and determine if: - the presence of characteristic MS-like lesion(s) on baseline MRI predisposes to MS. - specific proteins in blood or cerebrospinal fluid predispose to the clinical expression of demyelinating disease If we can predict by simple tests (MR brain scan and blood tests) the likelihood of the onset of MS in 'at risk' subjects, and have safe and tolerable therapies, we may be able to prevent the clinical onset of demyelinating disease (MS).