Active clinical trials for "Sclerosis"

A Phase 2a Open-Label Preliminary Safety, Efficacy, and Biomarker Study of WP-0512 in Patients with Amyotrophic Lateral Sclerosis (ALS)

To evaluate the efficacy of nemolizumab in systemic sclerosis patients. To evaluate also the safety and pharmacokinetics.

Multicenter, multinational, double-blind, randomized (2:1), placebo-controlled Phase III study to investigate the efficacy and safety of 100 mg FAB122 once daily as oral formulation in ALS patients.

This study is a prospective, multicenter, open-label, single-arm effectiveness and safety study in participants with progressive multiple sclerosis (PMS).

Several disease-modifying therapies (DMTs) have been shown to be effective in reducing the disease activity in patients with relapsing forms of multiple sclerosis (MS) but these treatments, often need to be used continuously for an unknown duration, rendering the long-term use extremely expensive. In addition, chronic administration of DMTs is often associated with undesirable side effects. Among these medications, B-cell depleting monoclonal antibodies might have the properties of an ideal group of medications: i) B-cell depleting antibodies have proven to be extremely potent in reducing or stopping the disease activity in relapsing MS, ii) B-cell depleting antibodies are very safe if used for a short period and use for a short duration may stop the inflammatory disease activity over long term, although current clinical practice and protocols are based on continuing B-cell depletion for an unknown period of time. Indeed, early phase clinical trials of rituximab and ocrelizumab suggested that a short course treatment with B-cell depleting antibodies can have long term effects and disease activity will not return even long after B-cell repopulation in the blood. This long-term effect might be related to the specific pattern of B-cell tolerance defect in patients with MS and the potential of its normalization with B-cell depleting antibodies. By analyzing the reactivity of recombinant antibodies expressed from single B-cells, the investigators' collaborators have demonstrated that the pattern of B-cell tolerance defect is different in people with MS who only display an impaired removal of developing autoreactive B-cells in the periphery while central B-cell tolerance in the bone marrow is functional in most patients. In contrast, patients with rheumatoid arthritis (RA), type-1 diabetes (T1D) or Sjögren's syndrome (SS) show defective central and peripheral B-cell tolerance checkpoints. As a consequence, while anti-B-cell therapy does not correct defective early B-cell tolerance checkpoints in T1D and only temporarily slows down autoimmune processes before newly generated autoreactive B-cells likely induce patient relapse, the investigators postulate that the efficacy of B-cell depleting antibodies in MS may be linked to the B-cell depleting antibodies' normal central B-cell tolerance and the production of a normal B-cell and T-cell compartment after anti-B-cell therapy. The investigators' goal is to provide proof-of-concept that a short duration of treatment with B-cell depleting antibodies can correct B-cell tolerance defects in MS and allow for medication-free prolonged freedom from disease activity, at least in a proportion of subjects with relapsing MS. In an open label study, 10 patients with active relapsing MS will be treated with two courses of ocrelizumab and will be followed clinically and radiologically for at least two and a half years. Time to the return of disease activity (defined as clinical relapses or new or enhancing lesions on the MRI) will be the primary outcome of the study. The investigators will harvest B-cells before starting the treatment and after B-cell repopulation and assess the central and peripheral tolerance defects. The investigators hypothesize that in most participants, the disease activity will not come back, and this prolonged response to anti cluster of differentiation 20 (CD-20) therapy is associated with normalization of B-cell tolerance defect in these patients. Considering the safety of this approach, it can be adopted widely among people with MS. Hence, the proposed B-cell analyses before and after B-cell depletion in people with MS will provide novel insights regarding the mechanisms underlying the beneficial effect of B-cell depleting antibodies and the potential long-term suppression of disease activity. This strategy can therefore improve the approach to treatment of many people with relapsing MS.

The purpose of this study is to determine the safety and efficacy of intrathecal treatment delivered to the cerebrospinal fluid (CSF) of mesenchymal stem cells in ALS patients every 3 months for a total of 4 injections over 12 months. Mesenchymal stem cells (MSCs) are a type of stem cell that can be grown into a number of different kinds of cells. In this study, MSCs will be taken from the subject's body fat and grown. CSF is the fluid surrounding the spine. The use of mesenchymal stem cells is considered investigational, which means it has not been approved by the Food and Drug Administration (FDA) for routine clinical use. However, the FDA has allowed the use of mesenchymal stem cells in this research study.

The alteration of iron metabolism is reported in animal models of amyotrophic lateral sclerosis (ALS) as well as in sporadic and genetic forms (SOD1 and C9orf72) of ALS. The high iron concentration of the brain, due to its high energy demand (high oxygen consumption), makes motor neurons particularly vulnerable to energy deficit and oxidative stress. Post-mortem examinations and MRI scans in patients with ALS have found signs of iron accumulation in the central motor tract; and a high level of serum ferritin, which is a marker of iron levels, is associated with a lower prognosis. In ALS mouse models, the use of iron chelators has demonstrated neuroprotection and increased life expectancy, suggesting that elimination of excess iron from the brain can prevent neuronal loss and, consequently, a slow progression of the disease. Conservative chelation of iron refers to a modality whereby much of the iron that binds to the chelator is redistributed in the body rather than exhausted. Using a chelator, deferiprone, with this feature, in a safety pilot study, a very good safety profile was observed. Deferiprone eliminated excess iron from brain regions, reduced oxidative damage and cell death associated with regional iron deposits with no apparent negative impact on the iron levels needed. Now, the efficacy of this new therapeutic modality of neuroprotection is being evaluated in a randomized, double-blind, placebo-controlled, multicenter study.

This is a Phase 3, international, multicenter, open-label, long-term extension study. The primary objective of this study is to evaluate the long-term safety and tolerability of oral edaravone in subjects with Amyotrophic Lateral Sclerosis (ALS) for up to 96 weeks.

The effect of physical therapy and rehabilitation on improving the gait and balance disorders of patients has been proven. FTR applications in MS patients have become routine in developed countries. However, due to the high patient density in our country, FTR cannot be performed at the rate we want due to different reasons such as the inability to separate areas special for MS patients, the lack of special FTR applications for MS patients, and the inability to perform regular FTR follow-ups. Even if FTR is recommended and performed, our patients think that FTR is not very effective due to the above reasons and they do not continue. A team of neurology, physical therapy specialists, and physiotherapists was formed, in-service training was completed and a special rehabilitation program for MS patients was created. First of all, we will apply routine classical FTR to our patients. Sensory and deep sensory disorders, which are more common and severe, especially in the lower extremities, also negatively affect gait and balance. A rehabilitation program was created by adding exercises to improve sensation and deep sense, along with muscle strengthening. The results of the 1st and 21st sessions of the patients in the two groups who underwent classical rehabilitation and deep sensory-assisted rehabilitation will be compared. It was planned to evaluate the gait and balance parameters of the patients as numerical data with clinical scales and the C mill device we used in walking and balance exercises.

A study to evaluate the efficacy and safety of fenebrutinib on disability progression in adult participants with Primary Progressive Multiple Sclerosis (PPMS). All eligible participants will be randomized 1:1 to either daily oral fenebrutinib (and placebo) or intravenous (IV) ocrelizumab (and placebo) in a blinded fashion through an interactive voice or web-based response system (IxRS). Approximately 946 participants will be enrolled and will be recruited globally. Participants who discontinue study medication early or discontinue from the study will not be replaced. The Open-Label Extension (OLE) phase is contingent on a positive benefit-risk result in the Primary Analysis of the study.