Active clinical trials for "Sclerosis"

Leg spasticity is common problem encountered with a large proportion of patients suffering with multiple sclerosis (MS) with an increasing severity as the disease progresses. It mostly affects the antigravity muscles that significantly complicates transfer, increases fatigue and makes walking more difficult. Hence, leg spasticity often interferes with patients' mobility and significantly influences their quality of life. A great number of multidisciplinary rehabilitation studies has shown a significant effect of numerous specific functional changes in patients with secondary (SP) and primary progressive (PP) MS but there are no reviews related to spasticity. The positive therapeutic effect of modulating Transcranial Magnetic Stimulation ( TMS) methods on spasticity is shown in only two studies, in patients with relapse remitting clinical form in the remission phase of the disease. The effect of TMS on clinical measures of lower limb spasticity, functional inability and the quality of life in patients with SPMS and PPMS will be examined in this study. The objective to this study are to to explore whether rTMS boosted exercise therapy (ET) treatment can bring more improvement in lower limb spasticity than ET treatment alone in these patients.

Background: Multiple sclerosis (MS) and progressive multifocal leukoencephalopathy (PML) are disorders that affect the central nervous system (CNS). The CNS includes the brain, spinal cord, and optic nerves. Both diseases can cause muscle weakness and impair vision, speech, and coordination. Researchers are working to better understand how MS and PML affect the CNS. Objective: To test whether an experimental radioactive tracer (minibody) can help positron emission tomography (PET) scans detect certain immune cells in the CNS of people with MS and PML. Eligibility: People aged 18 years and older with MS or PML. Design: Participants will come to the clinic for at least 3 visits over 4 to 6 weeks. Participants will undergo testing. They will have a physical and neurological exam. They will have blood tests and tests of their heart function. They will have a magnetic resonance imaging (MRI) scan of the brain. They may have a spinal tap: Their lower back will be numbed, and a needle will be inserted between the bones of the spine to withdraw fluid from around the spinal cord. Minibody is given through a tube with a needle placed in a vein in the arm. This takes 5 to 10 minutes. Participants will have heart function tests before and after receiving the minibody. Participants will return the next day for the PET scan. They will lie on a table that moves through a doughnut-shaped machine. This scan will take about 1 hour. Participants with PML may opt to repeat the minibody infusion and the PET scan within 6 months.

This study will investigate if the use of motor imagery to practice a balance task is as effective as physically practicing balance tasks as measured by the Berg Balance Scale (BBS) in persons with MS. A secondary purpose is to investigate if using a motor imagery balance intervention will limit fatigue typically experienced with physical movement in this population.

The primary objective of this study is to evaluate the radiological efficacy of SC natalizumab over time through Week 24 in natalizumab-naïve participants, as measured by brain magnetic resonance imaging (MRI). The secondary objectives of this study are to evaluate additional lesion-related radiological efficacy measures over time, relapse-based clinical efficacy measures, disability improvement and worsening (EDSS), pharmacokinetic and pharmacodynamic parameters, the immunogenicity of repeated doses, and safety in treatment-naïve participants of SC natalizumab.

Multiple sclerosis (MS) is the leading non-traumatic cause of severe acquired disability in young people. The disease is defined by relapses, which can affect all neurological functions depending on the location of the new inflammatory lesion(s). The disease can thus manifest itself through bladder and bowel disorders (BWS), which affect approximately 80% of MS patients in all stages. Lower urinary tract dysfunction has a significant negative impact on the quality of life of patients and places a significant burden on the healthcare system in terms of resource allocation. In addition, there is a risk of long-term chronic renal failure, an infectious risk (recurrent cystitis and/or pyelonephritis, sometimes life-threatening) and a lithiasis risk. The most frequently observed urinary symptoms are: urinary frequency, urgency with or without urinary incontinence, dysuria and chronic retention of urine. These disorders most often combine bladder hyperactivity and dysuria. This dysuria may be responsible for recurrent urinary tract infections, lithiasis, alteration of renal function. The only therapeutic class currently used to treat dysuria in MS is alpha-blockers. Tamsulosin, alfusozin and doxazosin induce relaxation of the urethral smooth sphincter and prostatic urethral muscle fibers, facilitating the removal of subvesical obstruction and bladder emptying. The study investigators hypothesize that treatment with tamsulosin 0.4 mg daily in adult MS patients with dysuria will result in symptom improvement as assessed by the International Prostate Symptom Score (IPSS) and Urinary Symptom Profile (USP) scores, a decrease in post-void residual, and an improvement in urine flow and quality of life.

Multiple Sclerosis (MS) is a chronic inflammatory & degenerative disease of the central nervous system (CNS) Recent data from the MS Base registry demonstrated an average delay of 152 - 215 days between first presentation and the diagnosis of MS, and more than one year until Disease Modifying Treatment (DMT) begins. Evidence suggests that shutting down inflammation using highly effective DMTs early after diagnosis leads to better long term clinical outcomes The AttackMS trial will test the effect of starting a highly-effective DMT licensed for MS, Tysabri® (Natalizumab 300mg), within a short time - 14 days - after symptom onset.

This study aims to evaluate the effect of Metformin as add- on therapy for improving the outcome in RRMS patients.

The investigator is examining the safety of transplanting cells, that have been engineered to produce a growth factor, into the motor cortex (brain) of patients with Amyotrophic Lateral Sclerosis (ALS). The cells are called neural progenitor cells, which are a type of stem cell that can become several different types of cells in the nervous system. These cells have been derived to specifically become astrocytes, which is a type of neural cell. The growth factor is called glial cell line-derived neurotrophic factor, or GDNF. GDNF is a protein that promotes the survival of many types of neural cells. Therefore, the cells are called "CNS10-NPC-GDNF." The investigational treatment has been tested in people by delivering it to the spinal cord. However, it has only been delivered to the motor cortex of animals. In this study, we want to learn if CNS10-NPC-GDNF cells are safe to transplant into the motor cortex (brain) of people.

The goal of this clinical trial is to determine if non-invasive electrical stimulation, using an electric stimulator placed on the skin of the patients back and abdomen for 30 minutes can reduce muscle spasms (spasticity) and improve walking function in patients with primary lateral sclerosis. Participants will attend one in-person clinic visit and participate in one telephone interview 24 hours after the treatment. The clinic visit will include pre-intervention, treatment and post-intervention assessments. The assessments will consist of a complete physical exam by the clinic neurologist followed by assessments and scoring of spasticity, deep tendon reflexes, gait quality, gait speed, gait endurance and balance. Patient's will rate their perceived spasticity pre, immediately post and 24 hours post treatment. The treatment involves one 30-minute electrical stimulation session, which includes application of electrode pads to the patients back and abdomen. The patient will lay supine (on their back) with a pillow placed under their knees for comfort. The pads will then be connected to an FDA approved electrical stimulator. The electrical stimulator will be turned on and current adjusted to the individual patient based on small muscle contractions in their legs. Once the current is set, the patient will lay supine for 30 minutes. After 30 minutes, the device will be turned off and electrode pads removed.

The available therapeutic strategies for Multiple Sclerosis (MS)-related symptoms are usually faced with limited efficacy and numerous side effects. Patients with MS frequently suffer from fatigue, affective symptoms, and cognitive deficits.