View clinical trials related to Dry Eye Syndromes.
Filter by:This study evaluates the use of Brimonidine tartrate nanoemulsion eye drop solution in the treatment of Dry Eye Disease (DED). Half of participants will receive Brimonidine and half will receive ophthalmic buffered saline (placebo).
Patients with severe dry eye who have exhausted conventional treatment are not uncommon and are difficult to manage. They and their physicians are helpless when faced with these scenarios. A small HPRG group, Health Science Authority (HSA) and IRB approved study of autologous plasma eye drop therapy for patients with recalcitrant dry eye has been completed recently by investigators at the Singapore National Eye Centre. The unique feature of the previous protocol was that the autologous plasma preparation was made and contained in sealed segments of intravenous tubing until use by the patient. The study showed that the corneal fluorescein staining of patients who regularly used autologous plasma over a 6 week period improved significantly. Additionally, there was a significant reduction in the total number of topical eye drop treatment required. Investigator did not encounter any cases of infected eye drop preparation or any cases of eye infection. Seventy percent of these patients would recommend this treatment to their relatives and friends suggesting that this form of treatment is a valuable additional modality for dry eyes. Now, investigator would like to extend the short-term pilot study into a long-term single arm clinical trial, in order to determine the best protocol/logistic for this treatment that is practical and still effective, and allowing for more than one plasmapheresis during the study. To achieve this, investigator aim to perform a longitudinal prospective study of patients with severe dry eye who cannot be satisfactorily managed with conventional dry eye treatments using a proposed regime for plasmapheresis and plasma storage.
The purpose of this study is to evaluate whether SkQ1 ophthalmic solutions are safe and effective compared to placebo for the treatment of the signs and symptoms of dry eye syndrome.
This is a search strategy for determining the prevalence of ocular complications in inflammatory rheumatic diseases for the purposes of a meta analysis.
Dry eye disease (DED), as one of the most common ocular surface diseases that affecting visual acuity, is highly associated with ocular surface inflammation. Until now, there is no accurate quantization index system to evaluate real-time ocular surface inflammation. Besides, an individualized therapy for ocular surface inflammation is also badly needed. As we all know, conjunctival congestion is one of the important clinical appearance of ocular surface inflammation. Hence, we suggest that several specific microvascular indexes could measure the change of ocular surface inflammation. Our program is aiming to investigate the correlation between inflammatory factors and blood flow velocity as well as microvascular distribution detecting from bulbar conjunctiva through our own devices and software.Futhermore, we tend to compare ocular surface microvascular indexes and microvascular distribution in normal people and dry eye patients in order to establish a database for Chinese people. By confirming the relationship between ocular surface microvascular indexes and ocular inflammation, we hope to set up new diagnostic criteria for ocular inflammation and an individualized therapeutic regimen based on ocular surface microvascular indexes. Finally, we want to establish a precision diagnostic and therapeutic pattern for dry eye disease.
Dry eye disease, ocular graft-versus-host disease (GVHD), and superior limbic keratoconjunctivitis (SLK) are all ocular surface disorders which mostly involve the outer surface of the eye. Many of the ocular surface disorders may result from or be aggravated by the mechanical stress from eyelid blinking. Specifically, SLK is an inflammatory ocular surface disorder characterizing by redundant superior bulbar conjunctiva. Since redundant superior bulbar conjunctiva can cause a significant mechanical force during eyelid blinking, we found that conjunctival resection with Tenon's capsule excision is helpful in relieving the symptoms of SLK patients. Therapeutic contact lens, protecting the ocular surface from the microtrauma between eyelid and ocular surface, is also an effective treatment for severe dry eye disease, ocular GVHD, and SLK. Although shearing force/mechanical stress has been studied in many different tissues and disease entities, the impact of shearing force over ocular surface is still unclear. While the importance of mechanical stress in ocular surface disorder has been reported, the specific molecule involving the pathogenesis is still unknown. Diadenosine polyphosphates are a family of dinucleotides. They can enhance tear secretion and increase corneal wound healing rate from previous reports. Shear-stress stimuli was also noted to be able to induce diadenosine polyphosphates releasing from human corneal epithelium. In addition, mucin, one of the three components of tear film, has been greatly emphasized in the pathogenesis of dry eye disease. There are also some reports about the shearing force compensating the mucin contents in the inflammatory lung/bowel diseases. If diadenosine polyphosphates or mucin indeed play a role in mechanical stress-related ocular surface disorders, it will be a promising therapeutic targeting in the future.
This study is to evaluate the efficacy and safety of SJP002 ophthalmic solution compared to placebo in patients with Dry Eye Syndrome.
This is a phase 2, multicenter, double-blind, placebo control, randomized study to evaluate the efficacy and safety of orally administered SA001 compared to placebo in patients with Dry Eye Syndrome. The clinical trial consists of a wash-out period of 14 days, a treatment period of 12 weeks, and a follow-up period of 1 week after administration of the Investigational Product. If the subject voluntarily signs the informed consent form(ICF), the investigator conducts screening tests and check medical history to evaluate the subject's suitability. As a result of the screening test, eligible subjects should stop using the prior medication for dry eye syndrome during the 14 days of observation period, and if necessary, subjects can use rescue drug(artificial tears) for the first 11 days, and then discontinue all eye drops including rescue drug(artificial tears) for 3 days. And all of these subjects will be randomized in a 1:1:1:1 ratio to receive 3 different doses of investigational product (SA001 or placebo) everyday for 12 weeks. During the treatment period, If necessary, subjects can use the rescue drug (artificial tears), and the number of administration of rescue drug is limited to 3 times a day, and when used, the administration time should be recorded in the subject's diary. Subjects should visit to the study site on 2, 4, 8 and 12 weeks after starting dosing investigational product. Efficacy evaluation results are collected from both eyes, and the primary evaluation variable is analyzed using the test results collected from 'Worse eye' (the eye with the worse keratoconjunctival staining result among both eyes). Worse eye will be determined at the baseline visit and, if the results of both eyes are the same, the test result of the left eye is used.
The purpose of this study is to evaluate acute tear production produced by the intranasal tear neurostimulator in participants with Sjögrens syndrome and aqueous tear deficiency. Our primary goal is to evaluate whether Sjögrens patients respond to this intervention and whether there is a baseline tear production level below which these patients do not respond.
A study which participants with mild to moderate dry eye disease will have a punctum of one eye injected with Restyalne Defyne and the other eye injected with saline solution. Participants will be evaluated over four visits.