View clinical trials related to Keratoconus.
Filter by:CACICOL20 is an ophthalmic solution based on the technology of RGTAs (ReGeneraTingAgents). It consists of large biopolymers, imitating the structure of heparansulphate. The protecting effect on different biological tissues and enhancement of wound healing has been described in several studies. Keratoconus is a relatively common disease, with incidences ranging from 1.3 to 25 per 100,000 per year across different populations. Corneal collagen cross-linking represents a treatment option for these patients, aiming to prevent progression of the disease via stabilization of corneal microstructure. Corneal epithelial removal prior to the ultraviolet A/riboflavin cross-linking procedure significantly improves the outcome of the intervention, due to ameliorated distribution of riboflavin. The aim of the present study is to investigate the effect of CACICOL20 on corneal epithelial wound closure after collagen cross-linking in patients with keratoconus. Results may lead to an improved management and pain reduction of patients with corneal epithelial defects.
We have developed novel Brillouin microscopy and we are testing its potential for keratoconus and ectasia diagnostics. We plan to perform axial scans of the cornea in human volunteers in order to compare biomechanical properties of Keratoconus vs. Normal corneas and compare biomechanical properties of post-LASIK ectasia vs. normal corneas.
The purpose of the present Randomized Clinical Trial (RCT) is to compare the efficacy and safety of transepithelial corneal cross-linking using iontophoresis (T-ionto CL) to treat progressive keratoconus in comparison with standard cross-linking (standard CL).
A prospective observational study on keratoconus and post-keratoplasty will be conducted. We will enroll 50 subjects in each of 3 groups: keratoconus, post-PK, and post-DSAEK. The Optovue anterior segment OCT prototype will be used to perform 3-D corneal scans. These scans will be used to measure corneal thickness (pachymetry), corneal topography (anterior and posterior) and epithelial thickness maps. The ultrahigh-speed MIT OCT prototypes will also be used when they become available. A comprehensive eye examination, Placido-ring corneal topography, ultrasound pachymetry, and Scheimpflug camera imagery, will be performed for comparison. In some post-PK and post-DSAEK cases, vision will be primarily affected by regular astigmatism, myopia, or hyperopia, rather than HOA. These cases can be corrected by standard PRK (not OCT guided) with adjunctive mitomycin C treatment to prevent haze formation.107, 108 In these cases PRK will be performed according to the standard of care and will not be a part of the study protocol. The postoperative results will be observed at the 3-4 month visit with UCVA, manifest refraction, BSCVA, OCT scanning, Placido topography, ultrasound pachymetry, and Scheimpflug camera imagery
The purpose of the study was to identify corneal epithelial- and stromal-thickness distribution patterns in keratoconic eyes using spectral-domain-optical coherence tomography (SD-OCT). Study Hypothesis: SD-OCT provides necessary details about the distribution of corneal epithelial and stromal thicknesses for identification of a pattern characteristic for early keratoconus.
The primary objective of this study is to determine the effectiveness and safety of corneal collagen cross-linking at irradiance levels of 9 and 18 mW/cm2.
Keratoconus is a chronic progressive non - inflammatory disorder characterised by progressive steepening and thinning of cornea and high myopic astigmatism, accounting for poor visual acuity in such individuals. Keratoconus seems to be more advanced on presentation, in young patients. The investigators intend to evaluate the effectiveness of conventional collagen cross linking in young patients diagnosed with keratoconus.
The objectives of this study are to evaluate the safety and efficacy of corneal collagen cross-linking performed with VibeX (riboflavin ophthalmic solution) and the KXL System as compared to placebo in impeding the progression of, and/or reducing, maximum corneal curvature.
The purpose of this study is to evaluate the efficacy of ultraviolet-A (UVA)-induced cross-linking of corneal collagen (CXL) as a method to increase the biomechanical and biochemical stability of the cornea by inducing additional cross-links within or between collagen fibers using UVA light and the photo- mediator riboflavin.
The purpose of this study is to determine if a new procedure, called laser-assisted lamellar anterior keratoplasty (LALAK), can achieve the same level of vision with a lower risk of potential complications after surgery compared to another corneal transplant procedure. The current procedure is called Intralase-enabled keratoplasty (IEK) and replaces the entire cornea. The LALAK procedure involves transplanting only the top layers of the cornea instead of the entire cornea. Only one eye will have this experimental procedure performed. If both eyes need to have surgery your doctor will help you decide on the best non-study option for your other eye.