View clinical trials related to Dry Eye Syndromes.
Filter by:This is a prospective cohort study to compare subjective changes in symptoms using the Ocular Surface Disease Index (OSDI) questionnaire, following the recommended dosage of the new nanoemulsion eye drops (Systane Complete)in mild to moderate dry eye patients, and to investigate objective ocular surface changes using modern clinical instruments during the study period.
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)
Age-related macular degeneration (AMD) is the 1st cause of visual impairment after the age of 50. Its most aggressive form, wet AMD, requires regular intravitreal injections (IVI) spaced 4 to 8 weeks apart usually depending on the treatment regimen and the patient's response. The IVI procedure requires a double disinfection with periocular and conjunctival cutaneous povidone-iodine. Antiseptic agents such as povidone iodine are a highly likely factor in the development of dry eye syndrome. Clinical data have demonstrated the abrasive and toxic effects of their use on the ocular surface, especially with repeated exposure (Saedon H, Nosek J, Phillips J. Ocular surface effects of repeated application of povisoden-iodine in patients receiving frequent intravitreal injections. Cutaneous and Ocular Toxicology. 2017;36(4):343-6.). The IVIS study coordinated by Prof. Dot reported impaired ocular surface and quality of life immediately after IVI. The authors suggest 3 levels of action to improve immediate tolerance: (i) improve the basal status of the ocular surface, (ii) reduce the contact time with povidone-iodine which could be toxic to the ocular surface and (iii) improve immediate post-IVI treatment. (Verrecchia S et al. A prospective multicentre study of intravitreal injections and ocular surface in 219 patients: IVIS study. Acta Ophthalmol. 2021 Mar 18). This study is part of the extension of the IVIS study. IVIs are effective and do not currently present a therapeutic alternative. However, their role in the development or exacerbation of dry eye is still poorly evaluated although millions of IVIs are performed each year worldwide (1.3 million in France in 2019). In addition, discomfort after injection is one of the factors that limit adherence to long-term IVI treatment, some patients fearing this repeated act. We propose in this bicentric, prospective, randomized, parallel group study, to evaluate in this context the impact of the continuous consideration of the risk of dry eye. The expected results are the objective improvement of dry eye indicators, comfort and quality of life of patients, all aimed at optimizing the adherence of our patients to their AMD treatment.
This study is to verify the efficacy and safety in the treatment of dry eye syndrome in patients prescribed with Diquasol eye drops as a monotherapy, or in combination with Hyaluron eye drops, or in combination with Hyaluronmax eye drops.
Observational and prospective cohort study that seek to evaluate the epidemiological characteristics and changes in the ocular surface of patients diagnosed with dry eye disease who are treated with preservative-free lubricating drops.
The purpose of this research study is to evaluate the effectiveness and safety of applying androgen sex hormone (i.e., testosterone) gel on the eyelids in the treatment of dry eye patients. Several studies have demonstrated positive treatment effects in dry eye, but few have applied testosterone gels to the eyelids.
The goal of this clinical trial is to determine the effectiveness of preventive therapy with diquafosol sodium 3% compared to sodium hyaluronate 0.1% to prevent dry eye disease in patient who will undergo cataract surgery. The main questions it aims to answer are: - The percentage reduction in subjective symptoms and signs of dry eye disease after cataract surgery. - The differences in the use of diquafosol sodium 3% and sodium hyaluronate 0.1% in improving dry eye disease signs in patients objectively. - The tear osmolarity and matix metalloproteinase-9 (MMP-9) after the treatment. - The difference in visual quality improvement assessed from higher order aberrations (HOA) and contrast sensitivity after administration of diquafosol sodium 3% compared to sodium hyaluronate 0.1%. Participants will receive diquafosol sodium 3% or sodium hyaluronate 0.1% for 4 weeks before the cataract surgery and 21 days after the surgery, and will be: - Interviewed regarding their identity, history of illness, and symptoms of dry eye disease. - Examined by researchers: eye condition, contrast sensitivity using the Pelli-Robson diagram, keratograph, HOA, tear osmolarity, MMP-9, corneal sensitivity, tear break up time (TBUT) , fluorescein break up pattern (FBUP). This examination will be carried out 4 times: on the first day before the research series, four weeks after giving therapy before cataract surgery, 21 days after cataract surgery, and 90 days after cataract surgery.
A Phase II, Multicenter, Randomized, Double-Blind, Placebo-Controlled Study to Evaluate the Efficacy and Safety of EG017 Ointment for the Treatment of Dry Eye in Postmenopausal Women
This study aims to evaluate the efficacy and safety of applying pulse Electrical Stimulation around eye after laser keratoplasty (LASEK) in patients with dry eye syndrome.
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).