Active clinical trials for "Keratoconus"

This is a prospective, randomized, single blind study. Patients enrolled in the study were randomly assigned to a ketorolac or a gabapentin group for pain control. Different pain scores and variables will be evaluated, along with others side effects variables.

The purpose of this study is to assess the performance and safety of T4020 versus saline solution.

There is no standard of care medication regimen for the management of pain and inflammation post-corneal crosslinking (CXL), although most cornea specialists agree on use of an antibiotic and steroid eye drop in the immediate postoperative period. However, steroid tapering schedule and use of additional topical non-steroidal anti-inflammatory (NSAID) eyedrops vary amongst practitioners. The goal of this study is to compare postoperative pain scores between patients receiving a tapering dose of topical steroids over 1-month post-CXL, versus those receiving an intracanalicular dexamethasone insert.

Epi-keratoplasty Versus Collagen Cross-Linking in Progressive Keratoconus

Our study is aimed to observe the long termed effect of contact lens wear on ocular surface, especially focused on visual function and ocular inflammation mediators.

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 generate data for presentation at medical meetings and for peer-review publication

The objective of this twelve month dispensing study is to evaluate the clinical performance, particularly comfort and vision, of KeraSoft IC Soft Contact Lenses.

The purpose of this study is to determine whether corneal stroma implantation is effective in the treatment of keratoconus.

Keratoconus is the most common primary cornea ectasia, where the cornea undergoes structural changes, leading to loss of tissue integrity and vision loss. The prevalence of Keratoconus is 1:2000 in the general population. Oxidative stress has been thought to have a major effect in the disease pathogenesis of Keratoconus. In vitro studies have shown increase in metabolites related to oxidative stress in Keratoconus disease, and that Keratoconus cells undergo increased oxidative stress and tissue damage. Animal models have shown a therapeutic effect of Vitamin C (ascorbate) in corneal wound healing. Glutathione and Vitamins A, C, and E are important antioxidants in the human body. To this date, the role of systemic antioxidant supplementation in Keratoconus patients has yet to be studied. In addition, it has yet to be established as to whether there is a correlation between serum antioxidant levels, and the severity of disease in the Keratoconus patient. The investigators propose to investigate the plasma levels of antioxidants in relation to disease severity. The investigators will also investigate the role of antioxidant supplementation-consisting of parenteral Glutathione (GSH), and Vitamins A, C and E-in delaying the disease progression in Keratoconus.

Keratoconus is a bilateral, progressive corneal degenerative disorder that often leads to significant visual deterioration over time. Corneal collagen crosslinking with riboflavin (CXL) was developed as a treatment to halt the progression of keratoconus and thus negate the need for corneal transplantation. However, the treatment alone has little impact in terms of improving visual function. Photorefractive keratectomy (PRK) is the application of an excimer laser to treat a patient's refractive error, therefore decreasing the dependence on spectacles or contact lenses for improved vision. Corneal collagen crosslinking combined with photorefractive keratectomy has been explored to partially correct the refractive error in keratoconic patients, whilst simultaneously stabilizing the corneal changes. Recently, the iDesign® Advanced WaveScan Studio (iDesign system; Abbot Medical Optics; Santa Ana, CA) has been launched as the most advanced high-resolution aberrometer. It is capable of mapping highly aberrated corneas for wavefront-guided laser procedures, and represents an important technological advance in treating corneal disease. The purpose of this single center, prospective pilot study is to assess the safety and efficacy of combined wavefront-guided PRK and CXL in patients with early keratoconus using the iDesign® aberrometer. Results of this pilot study will be used to provide sample size estimates for an extension of the study, which aims to determine whether sequential or same day procedure leads to better outcomes.