View clinical trials related to Dry Eye.
Filter by:Dry eye disease (DED) is a common condition that causes ocular discomfort and reduces visual acuity. The two categories of DED are evaporative dry eye and aqueous deficient dry eye. Both conditions can involve pathology of the meibomian glands, lacrimal glands, lids, tear film and surface cells. Meibomian gland dysfunction (MGD) is the leading cause of evaporative dry eye and contributes to aqueous deficient dry eye. The goal of MGD therapy is to provide long term improvement of symptoms for patients by improving the quality of meibum, increasing meibum flow, improving tear film stability and decreasing inflammation. Commonly used therapies include preservative free drops, omega-3 fatty acid supplementation, topical cyclosporine, serum tears, topical azithromycin, oral doxycycline, moisture chambers, intraductal probing, lib margin exfoliation, automated thermal pulsation, warm compresses, among other. Despite this variety of symptoms, patients often do not experience complete or long term relief of symptoms. Forced meibomian gland expression (MGX) has been shown to be an effective method of rehabilitating meibomian glands and improving dry eye symptoms. The eyelid margins are forcefully compressed to express gland contents. Research has shown improvement in patient symptoms with the use of MGX. Intense pulsed light (IPL) have been used in dermatology to treat various conditions. Patients with DED who have tried other therapies and found no relief, often resort to IPL as a last resort. Research has shown IPL alone may be effective in improving patient symptoms. In addition, such studies have failed to show significant adverse events with the use of IPL. Here, we propose a prospective, randomized, case controlled clinical pilot study to examine the efficacy for both subjective and objective measures. 20 patients with DED will be recruited and will be randomly assigned to one of two groups: MGX alone or MGX with IPL. Objective measures will include tear cytokine levels, impression cytology, meibography, tear osmolarity and others. Subjective measures will include quality of life screening tools. We hypothesize that the use of MGX with IPL will lead to greater improvement in subjective dry eye symptoms and objective measures. Given the lack of adverse effects reported in the literature, we do not anticipate adverse effects in our study. Rochester staff Drs. Faustch and Bourne are providing clinical research advice but have no contact with subjects or biospecimens.
The objective of this study is to evaluate the efficacy of Rohto Dry-Aid® in comparison to Systane® Ultra on visual function and tear film stability in patients diagnosed with Dry Eye.
This study characterizes acute dry eye symptom control, assessed during exposure to a Controlled Adverse Environment, following use of the TrueTear for 45 days.
The aim of this study is to compare ocular symptoms and signs when the test nutraceutical formulation (combination of flaxseed oil, borage oil and fish oil omega-3 fatty acids) is consumed daily over a 3 month period, with a control capsule that contains polyethylene glycol (PEG), oleic acid and propylene glycol, which are found in many pharmaceutical products and are generally considered to be biologically inert and safe. There is good evidence that the consumption of oily fish has a protective effect against dry eye, and other studies have provided evidence of the beneficial effect of supplementation with omega-3 essential fatty acids in the treatment of dry eye disease. However, there have been limited well designed clinical trials investigating the potential for nutraceutical dietary supplementation to impact ocular comfort. To date, no controlled, randomised clinical trials have been conducted to evaluate the test nutraceutical formulation. Therefore, the purpose of this study is to conduct a randomized, placebo-controlled, double-masked study to investigate the effects of dietary supplementation with a combination of flaxseed oil, borage oil and fish oil omega-3 fatty acids on ocular comfort including signs and symptoms of dry eye.
This study characterizes acute dry eye symptom control, assessed during exposure to a Controlled Adverse Environment, following use of the TrueTear for 45 days.
The study consists of 3 study visits to the clinic over at least 9 days. Visit 1 - the medical screening visit: subjects will undergo informed consent and will be tested for signs and symptoms of Dry Eye Syndrome (DES) including measurements by the TFI. Upon conclusion of the screening for DES, the subjects will be divided to the different categories: NDE, LDDE and ADDE. For ADDE and LDDE subjects the eye fitting the worst DES inclusion criteria will be designated as the study eye. For the NDE subjects the best eye will be designated as the study eye. During Visit 2 and 3, the TFI measurement and other clinical study endpoint procedures will be only conducted on the study eye. The safety endpoint procedures will still be conducted on both eyes individually throughout the study. Subjects will be queried for adverse events (AEs) at all visits. Visit 2 - after two days washout period subject will return for the LH-EEC test. Signs and symptoms of dry eye will be recorded before entering the LH-EEC, during the 120 min stay in the LH-EEC and at the conclusion of the day. Visit 3 - after 7 days washout period subject will return for the last test. The third day procedure is identical to the second day, with the addition of: following LH-EEC exit, subjects will have a health check and study check out procedures conducted. Statistical Analysis: Data will be summarized with respect to baseline characteristics, efficacy variables and safety variables. Summary statistics will include the number of observations (N), mean, standard deviation (SD), median, minimum and maximum values for continuous variables and frequencies and percentages for categorical variables. Missing values will not be replaced or imputed, i.e., no interpolation or extrapolation will be applied to missing values. Safety data will be listed and summarized by group (NDE, ADDE, and LDDE).
The primary objective of this study was to assess the efficacy and safety of rhNGF when administered as eye drops to patients with dry eye The secondary objectives of this study were: - To assess change from baseline in Symptom Assessment In Dry Eye (SANDE) scores (without imputation), corneal and conjunctival staining according to National Eye Institute (NEI) scale, and in Tear Film Break-up Time (TFBUT) and Schirmer test I, following 4 and 8 weeks of treatment. - To assess change in levels of inflammatory biomarker matrix metallopeptidase 9 (MMP-9) in tears following 8 weeks of treatment. - To assess the incidence and frequency of treatment-emergent adverse events (TEAEs) following 8 weeks of treatment.
The study aims to test the safety of Repetitive Magnetic Stimulation (RMS) treatment for dry eye disease. Patients are asked to undergo a one-time treatment with Epitech Ocular Magnetic Stimulation Device on one eye in the first stage and both eyes sequentially in the second stage of the study. Changes are monitored for over a study period of 3 months.
The purpose of the study is to analyze the sensation to eye drops containing menthol in people with healthy eyes and in people with dry eyes. This study also examines the temperature of your eye using an Infrared Camera.
This is a phase 3 study to evaluate the safety and efficacy of OmegaD softgels for the treatment of dry eye disease. A daily dose of 2 OmegaD softgels dosed orally BID will be compared to 2 placebo softgels dosed orally BID for 84 days. Approximately 164 subjects will be evaluated for their signs and symptoms of dry eye disease and for safety throughout the study.