View clinical trials related to Dry Eye Syndromes.
Filter by:The primary purpose of this study is to determine the efficacy and safety of KPI-121 0.25% ophthalmic suspension compared to vehicle (placebo) in subjects who have a documented clinical diagnosis of dry eye disease. The product will be studied over 14 days, with 1-2 drops instilled in each eye four times daily (QID).
The primary purpose of this study is to determine the efficacy and safety of KPI-121 0.25% ophthalmic suspension compared to vehicle (placebo) in subjects who have a documented clinical diagnosis of dry eye disease. The product will be studied over 14 days, with 1-2 drops instilled in each eye four times daily (QID).
The purpose of this study is to evaluate the clinical efficacy and safety of 10-weeks oral consumption of Zanthoxylum schinifolium seed Oil (ZSO) in patients with mild dry eye disease.
The primary objective of this study is to evaluate acute tear production as measured by tear meniscus height (TMH) captured by optical coherence tomography (OCT) after single use of the Oculeve Intranasal Neurostimulator (OIN) in participants with dry eye.
The purpose of this study is to evaluate the clinical effectiveness of SYSTANE® BALANCE compared to REFRESH OPTIVE® Advanced in subjects with lipid-deficient dry eye.
Prospective controlled pilot study to compare the outcome of ProKera® (PK) and conventional treatment in patients with moderate to severe Dry Eye Disease (DED)
The objective of the study is to demonstrate a change in osmolarity over time when moderate to severe dry eye subjects are treated with TheraTears lubricating drops.
Dry eye is a significant adverse effect of isotretinoin causing patients to use ophthalmic medications. For this reason, many patients using isotretinoin are referred to ophthalmology clinic because of discomfort symptoms. In the literature, there are studies suggesting superiority of Autologous serum drops regarding effects on ocular surface when compared to artificial tear. In addition, Autologous serum was also used in several corneal pathologies with successful outcomes. No data regarding use in the ocular adverse effects of isotretinoin was found in the literature; however, investigators think that it may be an effective alternative in the treatment of dry eye developed during isotretinoin use due to positive effects on ocular surface, epithelial regeneration and anti-inflammatory effect. Autologous serum can be a choice of ophthalmologists in routine practice by increasing number of comprehensive studies investigating effectiveness, safety and long-terms effects of Autologous serum therapy.In this study, it was aimed to investigate dry eye development in the patients receiving systemic retinoic acid therapy and to compare effectiveness of Autologous serum and Preservative free artificial tear in the patients with dry eye disease.
Ocular surface disease, especially dry eye and scleritis, commonly affects patients with autoimmune diseases. Ocular surface immune cells are increased in autoimmune disease; however the full subset of immune cells activated is unknown. Recent experimental studies show that dendritic cells and T cells in the cornea are critically associated with corneal nerve innervation. Corneal confocal microscopy (CCM) allows rapid non-invasive in vivo imaging of dendritic cells and corneal nerves. The investigators propose to investigate how ocular surface health, conjunctival immune cells and corneal nerve/dendritic cell morphology interact in 3 rheumatological conditions: Sjogren's syndrome (SS), Rheumatoid arthritis (RA), Systemic lupus erythematosus (SLE). The preliminary flow cytometric studies show that various immune cells (eg: T cells, B cells, and dendritic cells) can be quantified using minimally invasive impression membranes (Eyeprim). Clinically, the research team is experienced in measuring features of ocular surface inflammation (conjunctival redness, tear breakup times) with Oculus keratograph5M. The investigators also aim to harvest conjunctival immune cells using impression cytology and quantify specific cell types with flow cytometry. Corneal nerve morphology and dendritic cell density and distribution will be assessed using CCM; in collaboration with the group who have pioneered this technique. The investigator anticipate that alterations in corneal nerve and dendritic cell parameters will correlate with immune activation/inflammation, deterioration of tear function and increased systemic severity of the rheumatological disease. In addition, the investigators hypothesize that the lower the corneal nerve density, the higher the number of corneal dendritic cells and conjunctival inflammatory cells. Studying these relationships may allow a better mechanistic understanding of local corneal and systemic immune activation and the development of a non-invasive ophthalmic surrogate marker of dendritic cell activation and nerve fibre loss to aid earlier diagnosis, risk stratification and the development of new therapies in autoimmune patients with severe dry eye.
This study aims to profile the ocular surface inflammation of chronic Graft-Versus-Host Disease patients by investigating conjunctival cells, and clinical imaging for conjunctival redness and tear stability. Hence, the investigators expect to find an increased in inflammatory cell population in GVHD conjunctival samples.