View clinical trials related to Optic Neuritis.
Filter by:The primary objective of the study is to characterize the pharmacokinetics (PK) of BIIB033-B and to compare the PK profile with that of BIIB033-A in healthy volunteers. Secondary objectives are: To assess the safety and tolerability of BIIB033-A and BIIB033-B; To assess the secondary PK parameters of BIIB033-A and BIIB033-B; To assess the immunogenicity of BIIB033-A and BIIB033-B.
The primary objective of the study is to assess full-field visual evoked potential (FF-VEP) latency in subjects who were enrolled in Study NCT01721161 2 years (+ up to 12 months) after the last study visit. The secondary objective is to assess clinical progression and severity of central nervous system (CNS) demyelinating disease in subjects who were enrolled in Study NCT01721161 2 years (+ up to 12 months) after the last study visit. Intervention was administered in the previous study. The participants, investigator and outcome assessors remain blinded in this follow-up study.
Optic neuritis (ON) can remain isolated or reveal a widespread and chronic disease of the central nervous system (CNS), a multiple sclerosis (MS) or, more rarely, a Devic's neuromyelitis optica (NMO) or a systemic disease. The optical coherence tomography (OCT) is a retinal imaging technique to measure the thickness of the retina and its different layers with an accuracy of 4-6 µM. Costello et al have shown that approximately 75% of 54 MS patients have developed within 3 to 6 months after a ON a loss of 10 to 40 µM in the thickness of the peripapillary retinal nerve fiber layer (RNFL). The etiologic diagnosis of ON has been transformed in recent years. MS can now be diagnosed by McDonald's MRI criteria and NMO by the AQP4 antibodies (anti-aquaporin- 4) antibodies and the anti-MOG (myelin-oligodendrocyte glycoprotein) antibodies. The diagnosis and prognosis value of the OCT in patients with ON is not well known
Ublituximab (also known as LFB-R603) is a monoclonal antibody that specifically binds to the trans-membrane antigen CD20. The binding induces immune response that causes lysis of B cells. The rationale for using ublituximab in neuromyelitis optica (NMO) and neuromyelitis optica spectrum disorder (NMOSD) is based on the known roles of B cells, antibody production and plasma cells in the pathophysiology of NMO. NMO is characterized by the presence of an anti-Aquaporin-4 (AQP4) antibody, which can only be produced by differentiation of B cells to plasma cells. Because these anti-AQP4 antibodies may be pathogenic, B cells recognizing AQP4 may be directly involved in the disease process as well. B cells also play a role as potent antigen presenting cells in NMO. The strongest evidence of the importance of B cells in NMO comes from studies of B cell depletion, most commonly with anti-CD20 monoclonal antibody, rituximab (Rituxan®). Rituximab has been shown in five retrospective and two prospective studies to be effective in reducing NMO relapses up to 90% and achieving remission in up to 80% of patients solely by its action on CD20+ B cells, despite no change in plasma cell population and anti-AQP4 antibody titers. These human trials strongly suggest a critical role for B cells in the pathophysiology of human disease. While typically used in the prevention of disease, B-cell depletion may be beneficial in the treatment of an acute relapse as well. Emerging evidence indicates that peripheral B cells are activated during a relapse and plasmablast production of anti-AQP4 antibodies spikes. B cells are also found within acute lesions of the spinal cord and optic nerve suggesting roles both in the blood and in the central nervous system during a relapse.
The investigators' hypothesis is that measuring the PCTdynamics would be an easy and reliable symptom to evaluate in pathologies affecting the optic nerve
The goal of the study is to determine the earliest structural changes in the optic nerve during the acute event and during the twelve months of recovery following Acthar treatment.
This clinical trial aims at preventing visual dysfunction and optic nerve degeneration associated with autoimmune optic neuritis by systemic i.v. administration of 33.000 IU erythropoietin over 3 days. The primary objective is to determine the efficacy of erythropoietin compared to placebo given as add-on to methylprednisolone as assessed by measurements of retinal nerve fibre layer thickness and low contrast visual acuity 6 months after acute optic neuritis.
Optic neuritis (ON) is a common event in Multiple Sclerosis (MS), and causes significant loss of nerve cells in the eye, resulting in poor vision. Optic neuritis also provides a sensitive way of testing the effectiveness of drugs that may help protect from loss of nerve cells in ON and therefore in MS. The investigators have identified through laboratory and early clinical research in humans that amiloride (a water tablet already in use) may be a drug that can be of benefit in optic neuritis by protecting from loss of nerves cells, ie a neuroprotective drug. The purpose of this study is to assess the efficacy of amiloride as a neuroprotective drug in optic neuritis
The pathophysiology of Traumatic Optic Neuropathy (TON) is thought to be multifactorial, and some researchers have also postulated a primary and secondary mechanism of injury.TON is categorized as direct or indirect.In indirect TON cases, the injury to the axons is thought to be induced by shearing forces that are transmitted to the fibers or to the vascular supply of the nerve. Studies have shown that forces applied to the frontal bone and malar eminences are transferred and concentrated in the area near the optic canal. The tight adherence of the optic nerve's dural sheath to the periosteum within the optic canal is also thought to contribute to this segment of the nerve being extremely susceptible to the deformative stresses of the skull bones. Such injury leads to ischemic injury to the axons of the retinal ganglion cells within the optic canal. At present, no studies validate a particular approach to the management of TON. There are three management lines for these patients that include 1)observation only;2)medical treatment with high or megadoses of methylprednisolone; and 3)surgical intervention. Generally no line precedes the others and additionally, medical or surgical interventions may result in serious side effects or complications. In 2005, the results of the Corticosteroid Randomization after Significant Head Injury (CRASH) trial raised concerns regarding the use of mega dose steroids in traumatic brain injury. This study was the largest randomized study that evaluated steroids in patients with traumatic brain injury and was stopped early due to the significantly increased risk of death in patients that received mega dose steroids at their 6-month follow-up when compared with the placebo group (25.7% vs 22.3%; Relative Risk 1.15 Confidence Interval 1.07 to 1.24; p=0.0001). Although the etiology of the increased risk of death was not determined, the findings of this study should be taken into consideration when managing cases of TON with concurrent traumatic brain injury. Very recently it has been shown the cytokine hormone erythropoietin (EPO) that had been long known and used as a valuable agent to promote hematopoiesis has been protective in experimental models of mechanical trauma, neuroinflammation, cerebral and retinal ischemia, and even in a human stroke trial, and most notably in optic nerve transection. A double blind placebo-controlled multicenter trial on EPO add-on treatment in chronic schizophrenic men was performed. Treatment over 12 weeks with high-dose weekly (40,000 IU intravenously) EPO led to significant improvement of cognitive performance compared to placebo controls. Different studies have been performed on the effect of EPO on neuropathy in different studies. The investigators recently published our results on treating patients with TON with EPO and found it safe and effective. Patients were compared with a historical control group of patients who received no treatment for TON. A better visual recovery was found. The aim of this study is to determine the effectiveness of EPO on TON in a Multi- center clinical trial using a semi-experimental design.
To evaluate the ability of different spectral domain optical coherence tomography (OCT) devices, as well as different acquisition and analysis packages, to detect disease progression in patients with multiple sclerosis with and without a history of optic neuritis