View clinical trials related to Optic Nerve Diseases.
Filter by:The goal of this clinical trial is to assess the safety and efficacy of GS010, a gene therapy, in improving the retina functional & structural outcomes in subjects with LHON due to the G11778A ND4 mitochondrial mutation when vision loss duration is present up to one year.
Biotinidase is an enzyme that recycles biotin, a water-soluble vitamin essential as a coenzyme for four carboxylases that are involved in gluconeogenesis, fatty acid synthesis, and in the catabolism of several branch-chain amino acids. Biotinidase deficiency (BD) is an autosomal recessively inherited disorder. Patients with profound BD (<10% of mean normal serum biotinidase activity) presents, usually during early childhood, with neurological (seizures, hypotonia, ataxia, developmental delay, vision problems, and/or hearing loss) and non-neurological findings (metabolic acidosis, respiratory difficulties, alopecia and/or skin rash) that may progress to coma or death if untreated. Three cases of adult-onset biotinidase deficiency with reversible optic neuropathy have recently been described in France, where there is no neonatal screening of BP. Once treated with Biotin, patients' vision was fully restored. This study aims to assess the prevalence of BP among a population of patients with idiopathic optic neuropathy, and to assess the efficacy of Biotin supplementation on visual impairment in these patients.
In this study the investigators propose to perform a Phase II Clinical Trial which seeks to evaluate the safety of cell therapy as a new treatment for patients who suffer from acute non-arteritic anterior ischemic optic neuropathy (NAION). If it is successful, a later study to assess efficacy will be performed. This disease has an age-adjusted incidence rate of 10/100.000, and in many cases it results in blindness. Currently, there is no available treatment and second eye involvement occurs in approximately 15-25% of the cases. All this background originates a particularly dramatic outcome for the patient. Therefore, it seems justified to evaluate new therapies that maintain or improve the visual function in these patients. The Project includes a clinical trial whose purpose is the assessment of the safety of intravitreal administration of allogenic mesenchymal stem cells (MSC) in patients with NAION, a product in clinical research phase (PEI No. 15-007) already approved for other human clinical applications (PEI No. 15-007). It can be considered that the therapy with intravitreal injection of MSC is a treatment option in patients with acute NAION, since through the paracrine properties of these cells (secretion of neurotrophic, immunomodulatory and anti-apoptotic factors) it may prevent or reduce the progression of axonal degeneration caused by this disease.
This study is meant to evaluate the safety and efficacy of rAAV2-ND4 treatment for Leber hereditary optic neuropathy with the G11778A mutation in mitochondrial DNA.
Clinical trial.gov Brief summary : Non-arteritic anterior ischemic optic neuropathy (NAION) is an optic neuropathy due to acute or subacute ischemic event of anterior optic nerve axons retrolaminar part that was vascularized by posterior ciliary brevis artery. The incidence of ischemia will be followed by axonal edema and causing compartment syndrome and heighten the incidence of ischemic. In NAION, the main pathology occurs at the level of the optical nerve, the axons of retinal ganglion cells. Initial damage is on the optic disc ischemia resulting hypoxic injury of axons and manifest as disc edema. Axonal edema cause disturbances of retrograde axonal transport of neurotrophic factors, especially brain derived neurotrophic factor, to the retinal ganglion cells. This will trigger a secondary toxicity and apoptosis. In addition, the presence of oxidative stress, calcium influx and mitochondrial damage will also triggers apoptosis. After the apoptosis of retinal ganglion cells, there was a thinning of the retinal nerve fiber layer (RNFL) through Wallerian degeneration. Thinning of the RNFL will manifest as visual field defects and the decline in visual acuity in patients with chronic phase NAION. Though NAION include disease entity that has long existed, but until now, there has been no evidence-based study on medical or surgical procedures that is effective enough to overcome NAION. The main treatment is to manage the risk factor such as hypertension, dyslipidemia, diabetes mellitus, hypercoagulable state. In general, if the patient is in the acute phase (edema of optic nerve head), methylprednisolone administration may be considered, but if the patient is already on chronic phase (atrophy disc) which generally occurs 6-11 weeks after the onset, then steroids are no longer indicated. Neuroprotective agent was considered as treatment in NAION given primary pathology NAION is the retinal ganglion cell axons. Among the various neuroprotective substance, Citidine diphosphocoline (CDP-choline 5'-diphosphocholine or Citicoline) is a therapeutic option NAION. Citicoline is an endogenous mononucleotide consisting of ribose, cytosine, pyrophosphate, and choline. Citicoline is a component intermediates in the synthesis of phospholipids in cell membranes, ie phosphatidylcholine. Exogenous citicoline administered orally or intravenously, will be split into citidine and choline. Citicoline via oral administration can be absorbed completely and have a similar bioavailability in the blood compared to parenteral administration such as intravenous. Once absorbed, citicoline will be distributed throughout the body and enter the blood-brain barrier and the blood retinal barrier penetrate into the central nervous system. If there is damage to neurons, exogenous citicoline will participate in the synthesis of phospholipids in the neuronal cell membrane. Some studies show that citicoline may have a neuroprotective effect on retinal ganglion cells and supporting regeneration of damaged neurons in vitro. Previous research on the citicoline effect in chronic phase NAION give satisfactory results. Dopaminergic neurotransmitter systems known to occur in vast numbers in the retina and post-retinal visual pathway. Retinal ganglion cells using certain subtypes of dopamine as a means of communication with the visual cortex. Rejdak et al in animal models showed that citicoline administration could improve and strengthen the dopamine transmission in the retina. Citicoline also a safe medicine, without serious adverse effect. Electroretinogram (ERG) is a tool to measure the function of the retina. ERG examination can measure electrical changes in the retina after light stimulus. ERG examination that can detect changes in the activity of retinal ganglion cell is a pattern ERG. Spectral-domain optical coherence tomography is a tool that can measure the thickness of retinal ganglion cells. Thinning of the RNFL will manifest as visual field defects in patients with NAION. The typical visual field defects of NAION is altitudinal defects associated with segmental edema optic nerve head. Based on these descriptions question arises whether the citicoline supplementation can repair damage to the neurons of the retina, especially the retinal ganglion cells, in NAION resulting in improved retinal function which can be judged from the improvement of the value of the amplitude of the wave of P50 and N95 in the examination pattern ERG (PERG) when compared with placebo ? In addition whether citicoline supplementation can increase the thickness of retinal ganglion cells assessed using SD-OCT? Does citicoline supplementation give the effect of improving visual field defects in patients with NAION?
This study will evaluate the use of autologous bone marrow derived stem cells (BMSC) for the treatment of retinal and optic nerve damage or disease.
The participant is being asked to be a subject in this research study because the participant may have a disorder that can cause optic nerve damage and impairment of his/her visual function which is called optic neuropathies (ON). Optic neuropathy refers to damage to the optic nerve (a "cable" connecting the eyes and the brain to transmit the visual signals) due to any cause.In this study, the investigator is using magnetic resonance imaging (MRI) and ophthalmic measures such as optic coherent tomography(OCT), which are non-invasive imaging tests to measure the changes in eye globe shape ,the flow of blood and brain fluid. It is hoped that this study will provide new knowledge that may allow the investigator to better understand the cause of symptoms associated with optic neuropathy and ways to better monitor what is happening.
The purpose of this survey is to collect visual acuity data from patients with LHON in order to establish the clinical course (natural history) and visual acuity outcomes in patients with a genetically confirmed diagnosis of LHON. In addition, this survey will generate data that will serve as comparator for the open-label study SNT-IV-006.
LEROS is an open-label interventional Phase IV study, designed to further assess the efficacy and safety of Raxone® in the long-term treatment of LHON patients.
This study is a multicentre, prospective, non-interventional post-authorisation safety study (PASS) of the clinical outcomes for patients with LHON treated with Raxone®. No medication will be provided as part of this study. Raxone® will be obtained through commercial channels.