View clinical trials related to Retinitis Pigmentosa.
Filter by:The purpose of this study is to establish the natural history of of participants with BESTROPHIN 1 Vitelliform Macular Dystrophy. The blinding disorder Best Vitelliform Macular Dystrophy (VMD) is caused by any one of more than 250 different mutations in the BEST1 gene. As new treatments are developed, a clear understanding of the natural history of disease progression of BEST1 VMD is necessary. The goals of this natural history study are to: 1. Report the natural history of retinal degeneration in participants with a clinical diagnosis of VMD with molecular confirmation of a pathogenic BEST1 mutation(s). 2. Identify sensitive structural and functional outcome measures to use for future multicenter clinical trials for the treatment of BESTROPHIN 1 VMD. 3. Compare progression of the identified structural and functional measures between the two eyes to judge the suitability of the second untreated eye as a control for a future clinical trial involving unilateral treatment 4. Identify well-defined patient populations for future clinical trials of investigative treatments for BEST1 VMD.
The purpose of this study is to evaluate the safety, tolerability and efficacy of a single escalating doses of ZVS203e administered via subretinal injection in participants with RP caused by RHO site-specific gene mutation (RHO-RP).
Inherited retinal dystrophies (IRDs), a large group of heterogeneous and rare disorders, may result in irreversible bilateral visual loss and blindness. Characterizing the genetic bases of IRDs will help to understand the pathogenesis underlying the development of retinal damage. Despite the advances in molecular identification of genes causing disease, unsolved IRDs constitute about 40% of all cases. Goal of this study is to solve missing heritability in IRD using whole genome sequencing (WGS) to identify the genetic causes in clinically well-characterized patients without a molecular diagnosis. The identiļ¬cation of novel genes that have a role in the development or maintenance of retinal function will lead to the development of new therapeutic approaches and will favour a more prompt diagnosis and improvement of patient management.
This is a two-step, multicenter, Phase I/II study including an open-label dose-escalation phase (Step 1) and a three-arm controlled double-masked randomized extension phase (Step 2), in subjects with advanced RCD due to a mutation in the RHO, PDE6A, or PDE6B gene.
Our goal is to determine the cellular scale changes that occur in subjects who have disease progression due to pentosan polysulfate sodium toxicity
This is an international, multicenter study with two components: Registry - A standardized genetic screening and a prospective, standardized, cross-sectional clinical data collection - Enrollment is open to all genes on the RD Rare Gene List Natural History Study - A prospective, standardized, longitudinal Natural History Study - Enrollment opens gene-by-gene, based on funding and within-gene Registry enrollment The study objectives are as follows. Registry Objectives 1. Genotype Characterization 2. Cross-Sectional Phenotype Characterization (within gene) 3. Establish a Link to My Retina Tracker Registry (MRTR) 4. Ancillary Exploratory Studies - Pooling of Genes Natural History Study Objectives 1. Natural History (within gene) 2. Structure-Function Relationship (within gene) 3. Risk Factors for Progression (within gene) 4. Ancillary Exploratory Studies - Pooling of Genes
The purpose of this study is to characterize the natural history through temporal systemic evaluation of subjects identified with PRPF31 mutation-associated retinal dystrophy, also called retinitis pigmentosa type 11, or RP11. Assessments will be completed to measure and evaluate structural and functional visual changes including those impacting patient quality of life associated with this inherited retinal condition and observing how these changes evolve over time.
Retinitis pigmentosa (RP) is an inherited retinal degeneration caused by one of several mistakes in the genetic code. Such mistakes are called mutations. The mutations cause degeneration of rod photoreceptors which are responsible for vision in dim illumination resulting in night blindness. After rod photoreceptors are eliminated, gradual degeneration of cone photoreceptors occurs resulting in gradual constriction of side vision that eventually causes tunnel vision. Oxidative stress contributes to cone degeneration. N-acetylcysteine (NAC) reduces oxidative stress and in animal models of RP it slowed cone degeneration. In a phase I clinical trial in patients with RP, NAC taken by month for 6 months caused some small improvements in two different vision tests suggesting that long-term administration of NAC might slow cone degeneration in RP. NAC Attack is a clinical trial being conducted at many institutions in the US, Canada, Mexico, and Europe designed to determine if taking NAC for several years provides benefit in patients with RP.
This clinical trial aims to study the efficacy of umbilical cord-derived mesenchymal stem cells and their exosomes in the treatment of retinitis pigmentosa. The participants will be randomized into 3 groups. Functional and structural parameters will be compared before and after the injections and also will be compared among the groups to reveal whether stem cell and their exosomes are more effective than placebo.
The objective of the study is to collect adaptive optics (AO) retinal images from human subjects with outer retinal diseases (diseases of the outer retina including photoreceptor, retinal pigment epithelium (RPE), basement membrane or choroidal pathologies) to develop new diagnostic methods, biomarkers, and clinical endpoints.