View clinical trials related to Primary Open Angle Glaucoma.
Filter by:A prospective, multicenter, randomized, single-masked clinical trial to evaluate the effectiveness outcomes of canaloplasty performed as a standalone procedure with the iTrack microcatheter to the Omni surgical system, and to compare the effectiveness of two types of Ophthalmic Viscoelastic Device (OVD).
1. The purpose of this study is to obtain genetic data on a well-defined population of patients with glaucoma that had accurate measurements of rates of structural and functional change over time. 2. The investigators aim to recruit 5,000 patients for Phase I and 100 patients for Phase II over a period of 2 years for obtaining blood samples which will be processed for extraction of DNA and genotyping. Phase II also includes eye examination. Patients will be selected from the Duke Glaucoma Registry (DGR) database and will be contacted by phone, mail or email using a standardized script and procedure. 3. Data analysis, based on patient-blind (no personal health information) data will take place at Duke and Genentech. No protected health information (PHI) will leave Duke. Standard statistical methods will be used to analyze the collected data and to develop predictive statistical models for fast progression in glaucoma. Risks from participating in the study are low and include loss of confidentiality and inherent issues related to drawing blood.
The purpose of this study is to determine how the aqueous humor proteome changes after implantation of a Xen microstent for treatment of glaucoma.
The purpose of this study is to demonstrate that the rate of clinically relevant complications associated with CyPass Micro-Stent placement and stability using the CyPass 241-S applier, as determined at 36 months in the postmarket setting, is less than the pre-specified performance target, which is based on experience with the CyPass Model E applier in COMPASS trial TMI-09-01 (NCT01085357).
Lowering of the pressure in the eye (intraocular pressure, IOP) is the only proven treatment for Primary Open-angle Glaucoma (POAG). However, even effective reduction of IOP by pharmacological or surgical means does not always change the course of the disease or prevent the onset of glaucoma. Some people with POAG also suffer from Obstructive Sleep Apnoea (OSA), an increasingly common sleep disorder which is known to affect heart and blood vessels, and may contribute to glaucoma progression. OSA is treated with Continuous Positive Airway Pressure (CPAP)Íž however using this type of breathing support may raise IOP. This study aims to establish whether a short-term application of CPAP in awake subjects leads to an increase in IOP. Patients with treated POAG, patients with newly diagnosed untreated POAG and control subjects without glaucoma will be included. CPAP will be applied at several different pressure levels for a total of 2 hours during which IOP and ocular perfusion pressure (OPP) will be measured. If CPAP is shown to raise IOP or alter OPP it could be necessary to assess available alternative treatment options for OSA.
The purpose of this study is to assess how surgical interventions in glaucoma affect 24-hour intraocular pressure, 24-hour ocular perfusion pressure, optic nerve blood flow, and retinal oxygen saturation.
Aim: To demonstrate the non-inferiority of the PRO-067 ophthalmic solution manufactured by Laboratorios Sophia S.A. de C.V. versus GAAP Ofteno® ophthalmic solution like hypotensive therapy in subjects with primary open angle glaucoma or ocular hypertension. Study design: a multicentric, prospective, crossover (2x2), double blind clinical study. Sample size: one hundred patients with primary open angle glaucoma or ocular hypertension. Patients in the period 1: In the first sequence 60 patients will be assigned to receive the ophthalmic solution: GAAP Ofteno ® (latanoprost 0.005%) 1 drop per day (QD) during 30 days and the second sequence 60 patients will be assigned to receive the ophthalmic solution: PRO-067 1 drop QD during 30 days in the same period. Washout period: 21 hours. Patients in the period 2: the pharmacological intervention change to the opposite therapy for 30 days.
To evaluate the safety and effectiveness of Trabecular Micro-Bypass stents (two stents per study eye) vs. laser trabeculoplasty, in subjects with open angle glaucoma
The purpose of this study is to evaluate and compare efficacy and tolerability of the brand-name latanoprost and one of its generic version in subjects with primary open angle glaucoma or ocular hypertension. This randomized, double-blinded, cross-over design study has a 4 months follow-up. There are two periods of 8 weeks. During the first period, subjects put brand-name latanoprost in one eye and the generic version in the other one. In the second period, drops are switched from one eye to the other. There are intraocular pressure measurements (diurnal curves) on day 0 (before treatment), at 8 weeks (at the end of first period) and at 16 weeks (at the end of second period). Variations of intraocular pressure in each eye will be evaluated.
The purpose of this study is to use a special eye imaging technique, anterior segment optical coherence tomography (AS-OCT), to image the lens (the curved, transparent part of the eye that helps you to see clearly by directing images of light onto the back of your eye) and note any changes in exfoliation syndrome. Exfoliation syndrome is a common condition that has many ways of showing up in the eye, including the formation of deposits in the eye, shakiness of the lens that can complicate cataract surgery, and a higher chance of developing a type of glaucoma called exfoliation glaucoma. In this study we plan to collect images and measure exfoliation deposits on the lens with AS-OCT, which can take high resolution pictures of the eye without requiring contact with the eye. We will compare lens images of subjects with exfoliation syndrome to those of subjects with primary open angle glaucoma and cataracts. This type of imaging could be used in patients with known diagnosis of exfoliation syndrome to track disease progression and see how they respond to possible treatments. We also hope that with this imaging technology we can detect early changes in currently unaffected eyes, which could be useful for predicting which patients may develop the disease.