View clinical trials related to Dry Eye Syndromes.
Filter by:The RENEW Trial is a Multi-Center, Randomized, Double-Masked, Parallel-Group, Vehicle-Controlled, Adaptive Phase 3 Clinical Trial to Assess the Safety and Efficacy of Reproxalap 0.25% Ophthalmic Solution Compared to Vehicle in Subjects with Dry Eye Disease
The objective of this study is to assess the safety and feasibility of allogeneic adipose tissue-derived mesenchymal stem cells (ASCs) injected into the lacrimal gland in a smaller groups of 7 patients with Aqueous Deficient Dry Eye Disease (ADDE)
The purpose of this study is to compare the performance and safety of T2259 versus Vismed Multi in dry eye patients with superficial keratitis.
The objective of this study is to evaluate the chronic safety and effectiveness of OC-01 Nasal Spray as compared to placebo on signs of dry eye disease (DED).
To determine if Xiidra® lifitegrast plays a role in the refractive accuracy when administered to patients preoperatively who are scheduled for cataract surgery and have a tear break up time (TBUT) ≤ 10 seconds and central corneal staining as defined by the Oxford scale
Evaluation of the effect of topical application of Tacrolimus 0.03% (FK506) eye drops versus Cyclosporine 0.05% eye drops in treatment of dry eye in Secondary Sjogren Syndrome.
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.
A common first line treatment for patients with dryness symptoms or contact lens discomfort is the application of artificial tears or rewetting drops, respectively. Rewetting drops are specifically formulated for use with contact lenses while artificial tears are indicated for dry eye. Modern rewetting drops and artificial tears have similar formulations with similar preservatives, preservatives that have been shown to be compatible with contact lenses. While rewetting drops and artificial tears are regulated under different U.S. Food & Drug Administration policies, artificial tears are not specifically indicated for direct use with contact lenses. Nevertheless, clinicians commonly prescribe artificial tears to contact lens wearers likely because newer formulations of artificial tear have the potential to outperform available rewetting drops. The safety and efficacy of using artificial tears with contact lenses for the treatment of discomfort is supported by Caffery and Josephson and Ozkan and Papas who found that artificial tears significantly reduces dryness symptoms in contact lens wearers. Thus, the purpose of this study is to test the safety of directly applying a new artificial tear, Systane Complete, to the contact lens wearing eye and its ability to alleviate symptoms while wearing contact lenses during the day.
The objective of this study was to compare the safety and efficacy of 0.25% HL036 Ophthalmic Solutions to placebo for the treatment of the signs and symptoms of dry eye.
Meibomian glands are a kind of sebaceous gland located in the tarsus of lower and upper lids and their function is to express lipids to the tear film. The secretion of lipids, polar and no-polar, produced in the Meibomian glands is denominated as meibum and it forms the external layer of the tear film. Its thickness varies from 15 to 200 nm and it is related with the tear film stability and the evaporation of the tear film. The meibum composition is variable among participants, especially in those who suffer Meibomian gland dysfunction or dry eye disease. Meibomian gland dysfunction is the leading cause of ocular surface disease. Meibomian gland dysfunction management depends on its severity, but eyelid hygiene, including warming and expression of Meibomian gland, is recommended from clinical stage 1 and it has proven its efficacy. However, lack of participant compliance can be a problem when this therapy is prescribed. In the last few years, some devices have been developed to improve the efficacy of this therapy, as for example the application of Vectored Thermal Pulsation with the Lipiflow device. It has been reported that low relative humidity values increase evaporative rates in both dry eye participants and healthy participants. Also, our group has extensively proven the negative effect of adverse environments (in the Controlled Environment Laboratory (CELab)) in clinical variables such as tear stability, dry eye symptoms and corneal staining both in healthy and dry eye participants. Therefore, the hypothesis of this study is that improving the Meibomian gland secretion through the application of warm and pressure with Lipiflow device, meibum composition would change in participants with Meibomian gland dysfunction and they would be less affected by adverse environmental conditions simulated in a controlled environmental chamber. The study will try to assess the effect of Lipiflow on the meibum in patients exposed to controlled adverse environmental conditions.