View clinical trials related to Corneal Opacity.
Filter by:A prospective observational study on corneal opacities in infants and children (1 month to 18 years old) will be conducted at CHLA. Most of these cases will be due to congenital corneal opacity (e.g. Peter's anomaly, mucopolysacharidoses) or scarring due to infectious keratitis. Sixty (60) subjects will be recruited. The children will be examined under anesthesia with a portable slit-lamp and OCT. An iVue OCT system (Optovue) attached to an operating microscope-style mount at CHLA will be used for the intraoperative scans. Both cross-sectional and 3-D OCT scans will be performed to assess opacity depth, pachymetry map, endothelial defects, and any abnormal adhesion between the cornea, iris and lens. The anterior chamber angle will also be imaged with cross-sectional OCT to assess angle depth, trabecular meshwork, Schwalbe's line, and possible peripheral iridocorneal adhesion or posterior embryotoxon. OCT of the crystalline lens will be obtained to assess the presence of cataract. Slit-lamp photography will be obtained, and gonioscopy will be performed if indicated. Corneal diameter will be measured with a caliper, and intraocular pressure will be measured with a tonopen (Reichert).
The introduction of surgical robots in the OR revolutionized a number of specialties (i. e. urology, gynecology, digestive surgery). Robots are currently used in many situations and the list of appropriate indications is growing rapidly. There are many potential advantages of robotics in eye surgery such as increased precision and maneuverability, better ergonomics, improved patient access to surgeons and surgical training. As a result, robotics might improve patient care. The Da Vinci© robot has been used for 10 years in experimental conditions to suture corneal lacerations, to perform corneal grafts, to remove ocular foreign bodies, lens capsules and vitreous. The authors reported a lack of precision resulting from poor visualization and the absence of microsurgical instruments. These elements were considered to be hurdles to further clinical investigation. The new Da Vinci Si HD© robot has been available since 2009 at the IRCAD center and more recently in Strasbourg University Hospital. It provides greater magnification and better resolution of the operative field than the previous model. We performed since 2012 various ocular surface surgeries on porcine eyes at the IRCAD center. The aim of the present trial is to perform the same procedures (amniotic membrane transplantations, pterygium surgeries, corneal grafts) in a clinical setting with the Da Vinci Si HD© system.
A prospective observational study on corneal opacities (scar and stromal dystrophy) in adults (n=150) will be conducted at OHSU. The Optovue anterior segment OCT will be used to perform 3-D corneal scans. These scans will be used to assess opacity depth and 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 imaging, will be performed for comparison.
1. Purpose To evaluate the use of mitomycin-C (MMC) as an intraoperative adjunct during photorefractive keratectomy (PRK), its effect on postoperative healing and its ability to reduce the postoperative topical steroid course after the surgery. 2. Research Design This is a single-center, prospective, comparative cohort study. 3. Hypothesis There will not be a significant difference in the refractive corrections amongst the treatment groups, 12 months after surgery. 4. Objectives The primary study objective is to compare the effect of intraoperative MMC and a postoperative short topical steroid taper of 3 weeks, intraoperative MMC and a rapid topical steroid taper of 1 week, and a more commonly accepted postoperative regimen of a 2 month long topical steroid taper without any intraoperative MMC. The primary endpoint evaluated will be objective estimates of refractive error (WaveScan WaveFrontâ„¢ System) at 12 months post-surgery. Secondarily, the extent of haze formation will be evaluated objectively using densitometry maps generated by automated Scheimpflug imaging of the cornea (Pentacam®). Furthermore, the subjective vision from the patients' perspective will be evaluated by questionnaires.
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.
CoRDS, or the Coordination of Rare Diseases at Sanford, is based at Sanford Research in Sioux Falls, South Dakota. It provides researchers with a centralized, international patient registry for all rare diseases. This program allows patients and researchers to connect as easily as possible to help advance treatments and cures for rare diseases. The CoRDS team works with patient advocacy groups, individuals and researchers to help in the advancement of research in over 7,000 rare diseases. The registry is free for patients to enroll and researchers to access. Visit sanfordresearch.org/CoRDS to enroll.
The primary goal of the trial is to determine if laser-assisted lamellar anterior keratoplasty (LALAK) will reduce the risks of post-operative complications such as adhesions, glaucoma and cataract that are associated with pediatric penetrating keratoplasty (PK).
Optical Coherence Tomography (OCT) machines are non-contact instruments that can measure the depth of scars and other causes of cloudiness in the front of the cornea. The purpose of this study is to determine whether OCT-guided settings for the lasers used for removal of corneal scars and other partial-thickness corneal defects result in improved vision in patients receiving these procedures.
The present study was designed to evaluate the treatment of adenoviral corneal opacities with PTK and mitomycin C.
This study is planned to compare the results of ultrasonic and Orbscan pachymetry in corneal haze not related to surgery. Corneal haze is graded with slit-lamp by a single examiner. Ultrasonic and Orbscan II pachymetry measurements are obtained. Paired t and Kruskal-Wallis tests are used to evaluate the difference between ultrasonic and Orbscan pachymetry measurements. Correlation of the two methods and haze grade is determined with Kendall’s tau-b correlation analysis.