View clinical trials related to Multiple Sclerosis.
Filter by:The investigators will conduct at NorthShore University HealthSystem pragmatic trials using the EMR for 10 common neurological disorders. They will demonstrate the feasibility of subgroup based adaptive assignment of treatments, electronic consenting, and outcomes data capture at the point of care using the EMR. They will identify the most effective treatments for common neurological disorders and seek replication by the NPBRN.
The purpose of this study is to measure the effects of non-regular temporal patterns of deep brain stimulation (DBS) on motor symptoms and neural activity in persons with Parkinson's disease (PD), essential tremor (ET), dystonia or multiple sclerosis (MS). These data will guide the design of novel stimulation patterns that may lead to more effective and reliable treatment with DBS. These data will also enable evaluation of current hypotheses on the mechanisms of action of DBS. Improving our understanding of the mechanisms of action of DBS may lead to full development of DBS as a treatment for Parkinson's disease and may lead to future applications of DBS.
This is a pilot study (a small scale study testing procedures so that the investigators can apply this to a larger scale study). This study will test the accuracy of a new brain scan (Magnetic Resonance Imaging) technique in predicting the diagnosis of multiple sclerosis (MS) in patients where there is uncertainty about the diagnosis. For patients where there is a suspicion (but not definite) diagnosis of MS, an additional MRI brain scan will be offered. There will be no other research tests and the patient is followed up to see what the eventual diagnosis is. The investigators will then review the original brain scan to see if this predicted the diagnosis of MS or not.
Magnetization transfer imaging is a magnetic resonance technique that has been used over the last few years, and known for its ability to detect abnormalities that can be difficult to detect by conventional MRI techniques. The investigators would like to test if using an 7 Tesla MRI research scanner can help us diagnose Multiple Sclerosis more efficiently compared to the current clinical practice, i.e. if Multiple Sclerosis lesions in Gray Matter can be more readily identified and associated with disease stage on Magnetic Transfer MRI images as opposed to conventional procedures. Image analysis will allow the investigators to perform lesion segmentation and sequence comparison between different MRI techniques. The investigators will apply computation techniques to measure the local cortical thickness. Repeated scans at 6 monthly intervals over two years will give an insight into the changes in cortical thickness over time. Based on obtained data the investigators will look for the relationship between lesion loads in White Matter and Gray Matter, cortical thickness and disease stage.
The aim of this study is the comparison between the effects of supplementation with 25000 IU preformed vitamin A (retinyl palmitate)on retinoic acid receptor and retinoic x receptor expression.
The aim of this study is the comparison between the effects of supplementation with 25000 IU preformed vitamin A (retinyl palmitate) or placebo for first 6 months and 10000 IU/day for next 6 months on disease activity and progression in patients with Multiple Sclerosis.
The aim of this study is the comparison between the effects of supplementation with vitamin A (retinyl palmitate) or placebo for 6 months on gene expression of T CD4+ lymphocyte in multiple sclerotic patient.
People with multiple sclerosis (MS) often experience problems with cognitive functioning, which can be debilitating and interfere with their daily functioning. However, research has shown that MS disease modifying agents have had some success in treating cognitive problems. The main purpose of this research study is to investigate how well two medicines (alemtuzumab (Campath®) and interferon beta-1a (Rebif®)) work in treating MS-related cognitive problems (e.g., attention, memory, speed of thinking). Participants enrolled will be assessed prior to their first study-related medication dose and re-assessed throughout treatment. It is expected that participants taking Campath® will demonstrate relative stability in cognitive functioning relative to those taking Rebif®. Specifically, the cognitive performance of Rebif® participants will decline somewhat over time, but the cognitive performance of Campath® participants will remain stable.
This study is being conducted to compare healthy patients versus patients with muscle tightness in their leg(s) after an acquired brain injury using walking trials time, a balance test, and foot pressure data. This data is obtained using foot pressure sensors, timers, and distance walked.
Under normal conditions our immune system protects us against infections and tumors. The immune system does this by recognizing that the infecting organism or the tumor is foreign to the body and attacking it. One way the immune system attacks a foreign target is by making proteins called antibodies that bind to the target. Sometimes, for reasons we poorly understand, the immune system wrongly identifies part of our own body as being foreign and attacks it. This can result in disease such as some forms of diabetes and thyroid disease, as well as some neurological diseases. In this study, one tablespoon of blood will be removed from each subject and tested to see if the immune system is making antibodies against components of the nerves and muscles. We also hope to learn if these antibodies contribute to the development or worsening of illnesses of the nervous system. Only one blood draw is required, but subjects may be asked to give up to 8 additional blood samples to see if the level of antibodies changes over time. Any additional blood draws would be performed at regularly scheduled clinic visits. There would be at least 3 months between blood draws over a period of up to 3 years, if requested by the physician. Depending on your diagnosis, the physician may also request the collection of mouth (buccal) cells. This takes about one minute and is painless. The cells are collected by swishing a swab around your mouth. This cheek swab would be done with each blood draw. Please note that this study is conducted ONLY at UC Davis and that all participants must be seen in our clinic located in Sacramento, CA. Results of the testing performed in this study are not given to the participants. This study is not intended to treat or diagnose any condition.