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This study is designed to see how safe and effective a new eye drop, called Reformulated PG324, is for lowering eye pressure in people with open-angle glaucoma (OAG) or ocular hypertension (OHT).
Background Glaucoma is a progressive optic neuropathy characterized by elevated intraocular pressure (IOP), leading to irreversible vision loss. Current treatment strategies often involve medications, which can be challenging for patients due to adherence issues and side effects. Direct Selective Laser Trabeculoplasty (DSLT) represents a potential surgical alternative for managing IOP in patients with naive, untreated glaucoma. This study aims to evaluate the efficacy of DSLT in achieving significant IOP reduction without the need for postoperative medications. Unmet Medical Need: Overview of DSLT Direct Selective Laser Trabeculoplasty (DSLT) is an emerging technology in glaucoma management that combines laser techniques to reduce intraocular pressure (IOP). While it works off the auspices of a previous technology (SLT), the method of delivery is significantly different. Current Research Landscape Most existing studies focus on patients who have already received other forms of treatment or who have more advanced glaucoma. This creates an unmet need to evaluate how DSLT can be effectively integrated into the management of patients at the very beginning of their glaucoma journey. Understanding its efficacy in this population is crucial for establishing best practices and improving long-term outcomes. Interventional Glaucoma Management vs. Standard of Care Standard of care for newly diagnosed glaucoma typically involves medications, such as topical prostaglandin analogs, which can have side effects and may not be effective for all patients. In contrast, interventional glaucoma management-such as DSLT-offers a potentially more direct approach to lowering IOP without the need for ongoing medication. Investigating DSLT in this context could lead to a paradigm shift in how newly diagnosed patients are managed, reducing their reliance on medications and potentially improving adherence and quality of life. Conclusion Addressing this research gap will not only help clarify the role of DSLT in early glaucoma management but could also enhance patient outcomes and guide future treatment protocols. Focusing on newly diagnosed patients is essential for determining the long-term benefits and risks associated with this innovative technology.
The purpose of this study is to collect data about how Rhopressa affects IOP in patients who have had an SLT procedure in both eyes.
The goal of this clinical trial is to show non-inferiority of the MIMS® device/procedure with Mitomycin-C, in terms of its surgical success rate, compared to trabeculectomy with Mitomycin-C in subjects diagnosed with primary open angle glaucoma, whose intraocular pressure is not controlled despite polypharmacy. Eligible screened participants will undergo the MIMS® procedure and will be followed for a period of 12 months in this single-arm study. Investigators will compare the results of this study to the surgical success rate of traditional trabeculectomy with Mitomycin-C.
We are testing the accuracy of Reichert's Tono-Vera tonometer by comparing measurements of IOP with this device and measurements with other commonly-used tonometers, including Goldmann Applanation and iCare.
Glaucoma is the leading cause of irreversible blindness worldwide. Previous studies demonstrate that smaller eye drops used in the treatment of glaucoma are just as efficacious as their larger counterparts. The proposed study hopes to demonstrate the non-inferiority of using Nanodropper to lower intraoccular pressure (IOP) in glaucoma patients compared to standard of care eye drops.
This study is to investigate the relationship between arterial carbon dioxide (CO2) concentration and vitreous pressure on the choroidal volume by integrated intraoperative OCT imaging under eye exams under anesthesia.
The purpose of this study is to improve understanding of the pathophysiologic process that leads to the development of glaucamotous damage. The mechanism by which vision loss in glaucoma occurs is still unknown, but it is clear that increased intraocular pressure (IOP) is a major risk factor. It is also thought that the LC is a site of primary damage during pathogenesis of the disease. This prospective study with determine the in-vivo mechanical response to IOP modulation at the level of the ONH and LC.
The goal of this clinical trial is to learn if a new contact lens device can record patterns in eye pressure for 24 hours in adults with glaucoma and in healthy participants. The main questions it aims to answer are: * Is the contact lens device able to detect patterns in eye pressure that happens naturally between nighttime and daytime? * Are the contact lens recording patterns similar when repeated one week later? * What eye problems do participants have when wearing contact lens for up to 24 hours? Researchers will compare if the recordings detected by the contact lens over 24 hours are similar to the patterns measured by an eye pressure measuring instrument used in a doctor's office. Participants will * Wear contact lens in one eye for up to 24 hours * Take recordings in that eye with smartphone camera every 15 minutes when awake * For those participants who are able to stay overnight at a hotel for the trial, researchers will measure the eye pressure in the other eye every 1 to 2 hours when awake with an eye pressure measuring instrument.
The goal of this observational study is to learn about the long-term results of glaucoma stent surgery in men and women 18 or older who have had cataract and microstent surgery in the past 2 years at the Moran Eye Center. The main questions the study aims to answer are: 1. How often are microstents mispositioned? 2. What effect does microstent positioning have on intraocular pressure after surgery? Participants will have a one-time clinic visit for an eye exam and Optical Coherence Tomography (OCT) . From the eye exam and OCT, Researchers will assess and categorize the position of the microstents and assess the Schlemm's canal dilation. Researchers will review the participants' medical records to acquire 2-year data for the following: 1. Surgeon type and level of experience (resident, fellow, attending ophthalmologist) 2. Proportions of proper gonioscopic placement intraoperatively for each surgeon group 3. Effectiveness of surgery, based on change in intraocular pressure (IOP) from baseline medicated IOP, number of IOP-lowering medications the patient was able to discontinue, and rate of need for additional glaucoma surgery.