55 Clinical Trials for Various Conditions
The purpose of this study is to evaluate the clinical and laboratory performance of three brand name contact lenses with three recently introduced multipurpose lens care solutions (test solutions) as well as a peroxide disinfecting solution (control solution).
Three arm study comparing three novel contact lens solutions.
The purpose of this study is to quantify the amount of corneal staining observed with various marketed contact lens/multipurpose solution combinations. The hypothesis is that there are measurable differences in the amount of corneal staining between the various combinations.
This study will evaluate Tangible Boost, a new contact lens care product which is designed to replenish the hydrogel layer on fluorosilicone acrylate lenses with Hydra-PEG. The Hydra-PEG coating is a poly(ethylene glycol)-based hydrogel that is covalently bound to the lens surface. This coating improves lens wettability, a common cause of patient discomfort. Tangible Boost is designed to maintain the wettability of Hydra-PEG lenses throughout the lens lifetime. Patients can use the Tangible Boost kit to reapply the Hydra-PEG coating each month at home.
Tolerability is compared between two Multi-purpose disinfecting solutions (MPDS).
The purpose of this study is to more objectively evaluate potential lens-material/care solution bio-incompatibilities. We will do this by measuring corneal staining and the amount of fluorescein dye diffusion into the eye.
The purpose of this study is to evaluate the in-vivo wettability of soft contact lenses when cared with two different multi-purpose solutions over a two week wearing period.
This study evaluates a multi-purpose solution when used on a daily wear basis by currently adapted soft contact lens wearers.
To the safety and efficacy of a Bausch \& Lomb Multipurpose Solution when compared to Ciba vision Aquify Multipurpose solution
The purpose of this post-market clinical follow-up (PMCF) study is to evaluate the long-term safety and performance of 3 commercially available contact lens cleaning and disinfecting solutions in a pediatric population. This study will be conducted in Canada and the US.
The purpose of this post-market clinical follow-up (PMCF) study is to evaluate the long-term safety and performance of 2 commercially available contact lens cleaning and disinfecting systems in a pediatric population.
The purpose of this study is to evaluate corneal staining observed after 2 hours of wear with an investigational contact lens against both PureVision contact lenses pre-cycled with Biotrue and Biofinity contact lenses pre-cycled with RepleniSH.
The purpose of this study is to determine the clinical ocular compatibility (feasibility of safety and efficacy) of a patented solution (US Patent 2,259,437, Stone) which contains multiple essential ions and has a pH and tonicity which more closely mimics human tears as compared to the subjects' current habitual scleral lens insertion solution.
The purpose of this study is to evaluate the lipid uptake, wetting characteristics, and visual performance of AIR OPTIX® AQUA and ACUVUE® OASYS® with HYDRACLEAR® contact lenses when used in conjunction with two contact lens care systems.
The purpose of this study was to investigate the association of inflammatory mediators found in the tear film during the development and following the induction of contact lens solution-induced corneal staining.
Assess the usefulness of using confocal microscopy to examine changes to the structure of the cornea and to identify any potential consequences of contact lens wear and/or solution use.
The purpose of this study was to demonstrate that current successful fulltime daily wear soft contact lens wearers using competitive multi-purpose solutions will note improved comfort when using OPTI-FREE RepleniSH®.
The objective of this study is to evaluate the safety and effectiveness of ASP-57 Multi-Purpose contact lens solution (Test) compared to ReNu® Multiplus Contact Lens Solution (Control) when used by habitual contact lens wearers to bilaterally clean and disinfect their contact lenses for approximately 3 months (12 weeks).
Evaluation of saline solutions used with scleral rigid gas permeable contact lens wearers experiencing debris in the post lens tear reservoir
The goal of this study is to investigate the overall theory that the use of chemically preserved solutions associated with contact lenses promotes an increase in bacterial infection.
This study compares an investigational contact lens care multi-purpose solution to a currently marketed multi-purpose solution.
This study compares an investigational contact lens care multi-purpose solution to a currently marketed multi-purpose solution.
The purpose of this study is to measure the relative "barrier" function of the top layer of the cornea (called the epithelium), or the degree to which the cornea can prevent the penetration of the colored dye sodium fluorescein into the eye. This is a clinical investigation of the effect on corneal barrier function following wear of two contact lens materials and two contact lens care systems, approved for marketing in the US by the Food and Drug Administration. These contact lenses will be worn for two hours, following soak in one of two marketed contact lens disinfecting solutions. Approximately 25 young, adapted contact lens wearers will participate.
This study is to evaluate the safety and effectiveness of ABT12 Multi-Purpose solution (Test) compared to COMPLETE® Multi-Purpose Solution Easy Rub® Formula ("COMPLETE Multi-Purpose Solution") when used by participants who are habitual contact lens wearers.
The purpose of this study is to assess corneal staining and to measure the relative corneal epithelial "barrier" function (the degree to which the cornea can prevent penetration of colored sodium fluorescein dye into the eye) after 8 hours of wear with a known soft contact lens and multipurpose lens care solution combination.
Approximately 340 participants (680 eyes) will be enrolled in this three-month, two-arm, 1:1 randomized, parallel-group, bilateral, double-masked study at approximately 22 investigative sites in the United States. Participants will be required to wear dispensed study lenses on a daily wear basis for three months with scheduled in-office replacement of study lenses at the 1-Month and 2-Month Follow-Up Visits.
The objective of this 2 hour study is to evaluate the clinical performance of Biotrue ONEday lenses with an alternate packaging solution (EPG03) compared to commercially available Biotrue ONEday lenses. This novel contact lens packaging solution contains known elements in the ophthalmic industry and is safe for use.
The most common reason for contact lens discontinuation is contact lens discomfort. The investigators believe that inflammation plays a role in contact lens discomfort and the use of lifitegrast 5% ophthalmic solution may reduce end of the day contact lens discomfort. This study will enroll 21 contact lens users who will be receiving lifitegrast 5% ophthalmic solution and monitor the contact lens discomfort for a 8 week period while.
This is a multi-site, randomized, double-masked, contralateral, 2 treatment x 2 period crossover, dispensing, five-visit study to gain clinical insights of the study lenses and solutions.
The objective of this study is to evaluate the safety and effectiveness of NNR06 Multi-Purpose Solution cleaning and disinfecting solution (Test) compared to COMPLETE Multi-Purpose Solution cleaning and disinfecting solution (Control) when used by habitual contact lens wearers to bilaterally clean and disinfect their contact lenses for approximately three months.