22 Clinical Trials for Dry Eyes
The purpose of this randomized, controlled, multicenter study is to evaluate the safety and efficacy of TTAX03 in participants with mild to moderate DED. The primary question it aims to answer is if TTAX03 is safe. The secondary is the effectiveness. Researchers will compare 10mg of TTAX03 reconstituted in 150, 300, or 600 uL saline to the saline control group to look at effectiveness. Participants will be randomized to a treatment group one time and be evaluated at 5 different study visits.
A Randomized, Multicenter, Double-Masked, Saline-Controlled Trial to Evaluate Corneal Endothelial Cell Density in Subjects With Dry Eye Disease Administering Miebo® (Perfluorohexyloctane Ophthalmic Solution) for 12 Months
This prospective study will investigate the effect of pre-operative Systane iLux system administration in treated cataract induced dry eye disease.
The purpose of this study is to determine the safety and efficacy of VSJ-110 compared to placebo in the treatment of dry eye.
A Phase 3 Multi-Center, Randomized, Double Masked, Vehicle Controlled Study to Assess the Safety and Efficacy of ST-100 (vezocolmitide) Ophthalmic Solution 60 μg/ml Ophthalmic Solution in Subjects Diagnosed with Dry Eye Disease (DED)
Clinical Study Evaluating Nordlys™ System with Selective Waveband Technology (SWT)® Intense Pulsed Light (IPL) Applicators for Dry Eye Disease (DED) due to Meibomian Gland Dysfunction (MGD).
This is a single site, prospective, cross-sectional, controlled clinical study on a total of 66 subjects. The subjects are divided into two groups: Hypertonic Saline Non-Responders (33 subjects) and Hypertonic Saline Responders (33 subjects). After completion of questionnaires, the subjects will undergo Dry Eye Disease testing and functional nerve testing. Subjects who qualify will be dispensed 4 weeks of preservative free artificial tears and instructed to instill one drop into each eye twice daily. Subjects will return for a follow up visit 4 weeks later (± 4 days), during which subjects will complete the questionnaires again and the Dry Eye Disease tests and functional nerve tests will be repeated.
In this study, the TearCare System will be compared with the LipiFlow Thermal Pulsation System in patients with dry eye disease. The objective is to demonstrate that the TearCare System is safe and effective in relieving the signs and symptoms of dry eye disease. NOTE: All sites have been selected for this study. We are not seeking additional sites at this time.
This study is being conducted to evaluate the short-term (1 month) safety and effectiveness of a single TearCare procedure to treat adult patients with dry eye disease. NOTE: All sites have been selected for this study.
Single site, prospective, double-masked, randomized-controlled, cross-over study of the subjective and objective performance of 2 different eyedrops. Subjects will be assessed at a screening visit, and 3 follow-up visits. Clinical evaluations will include patient questionnaires.
The study purpose is to evaluate corneal sensitivity in patients that have Stage 1 Neurotrphic Keratopathy (NK). Identifying patients with Stage 1 NK, may predict those who will in the future require rhNGF for optimal visual performance.
The purpose of this study is to evaluate the usability of the iTEAR100 generation 2 device in combination with its newly developed iLIDS100 disposable cover.
The aim of this study is establish the reliability and clinical utility of microneuromas as identified via in vivo confocal microscopy as the diagnostic biomarker for NCP.
Evaluate and study the immunologic changes to the ocular surface in cancer patients.
Single-site, open label pilot study of 20 autoimmune patients diagnosed with dry eye demonstrating via the proparacaine challenge some peripheral corneal pain component. At least 16 patients will receive and complete 12 weeks of 80 units of Acthar Gel to be injected subcutaneously twice weekly via Acthar Gel single-dose pre-filled SelfJectTM injector (SelfJect) to assess the effects on subjective sensation of ocular pain, conjunctival and corneal staining, in vivo assessments of corneal nerves as measured by confocal imaging, VAS scales of common neuropathic pain symptoms and comfort of SelfJect will be assessed.
The purpose of this study is to collect data on patients seen at University of Maryland after undergoing cancer therapy. Previous medications, ocular history, medical history, clinical evaluations, surgical procedures and outcomes will be gathered on the patients who consent to participate. Potential subjects will be enrolled from the clinical practice of the investigator at the time of their eye examination visit. A standard of care exam will be performed pertinent to the reason for the visit. In addition to the standard of care exam, certain biological specimens (ocular surface wash, mucocellular material, corneal filaments, impression cytology, and/or blood) will be collected, stored, and analyzed to obtain immunologic, cellular, or molecular mechanistic insights into disease pathogenesis.
To evaluate dry eye symptoms and contact lens wearing times after a single iLux treatment by evaluating change from baseline in OSDI scores, subjective CLDEQ8 and CL wearing time questionnaires, and meibomian gland secretion scores.
The purpose of this study is to determine the clinical application of advanced ophthalmic imaging devices such as optical coherence tomography (OCT), retinal function imager (RFI), slit-lamp biomicroscopy (SLB), PERG in diseased eyes and normal controls. There are two phases in this study. The first phase is an observational phase which studies the eye in various conditions. The second phase is an interventional phase which studies the changes in the eyes after taking an over-the-counter medical food (Ocufolin) for 6 months.
The purpose of this study is to measure the efficacy and safety of HZN-1116 in participants with Sjogren's syndrome (SS).
Age-related macular degeneration (AMD) is an eye disease which causes people to lose their sharp central vision over time. Aging damages the macula, which is in the middle of the retina - the light-sensitive part at the back of the eye. There are 2 types of AMD - wet AMD and dry AMD. The advanced stage of dry AMD causes vision loss. This is known as geographic atrophy. AMD makes everyday tasks like reading or driving difficult. ASP7317 is a potential new treatment for people with AMD. ASP7317 are human stem cells which have changed into cells found in the retina. ASP7317 is injected under the macula. It is hoped that ASP7317 will replace some of the damaged cells in the macula and improve vision for people with dry AMD. Before ASP7317 is available as a treatment, the researchers need to check its safety and how well it is tolerated. They will also check for signs of improved vision. People taking part in this study will be older people who have geographic atrophy caused by dry AMD. This is an open-label study. This means that people in this study and clinic staff will know that people will receive ASP7317. There will be 3 doses of ASP7317. These are low, medium and high numbers of cells. ASP7317 will be injected under the macula after the person is given either a local or a general anesthetic. To prevent the body from rejecting the cells, people will take tablets of tacrolimus a few days before receiving ASP7317 for up to a few weeks afterwards. Other medicines will be taken during this time to stop infections. There will be 2 groups in the study. Group 1 will be people with severe vision loss and Group 2 will be people with moderate vision loss. There will be different small groups of people within Group 1 and Group 2, with each small group receiving 1 of the 3 doses of ASP7317. Different small groups of people within Group 1 and Group 2 will receive lower to higher doses of ASP7317. Each small group will only receive 1 dose. Group 1 will start treatment first. At each dose, a medical expert panel will check the results of the first person in the group to decide if the rest of the group will receive the same dose. Then, the panel will decide if more people may receive the same dose or if the next group may receive the next highest dose. The panel will use the results from the lower dose of Group 1 to decide when Group 2 starts treatment (also at the lower dose). The panel will also use the results of the middle and higher doses in Group 1 to decide when and how many people in Group 2 can receive these doses. During the study, people will visit the clinic several times for up to 12 months (1 year). During all visits, the study doctors will check for any medical problems after receiving ASP7317. Vital signs will be checked a few days before treatment with ASP7317 and up to about a month afterwards. Vital signs include blood pressure, pulse, and temperature. At some visits, the study doctors will also take blood samples for blood tests. At most visits, people will have eye tests and have different images, scans, and measurements taken. This could be for the affected eye or both eyes, depending on the test. People can visit the clinic extra times, if needed.
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 purpose of this study is to assess the effect of Iptacopan to prevent conversion of early or intermediate age-related macular degeneration (AMD) eyes to new incomplete retinal pigment epithelium and outer retinal atrophy (iRORA) or late AMD.