View clinical trials related to Keratoconus.
Filter by:This study is being conducted to evaluate the safety and effectiveness of using the PXL Platinum 330 system for performing corneal collagen cross-linking (CXL) for the treatment of corneal thinning disorders. The PXL Platinum 330 system is a combination product consisting of a UVA 365 nm wavelength light source (PXL Platinum 330 Illumination System) and riboflavin (Peschke-TE 0.25% ophthalmic solution or Peschke-L 0.23% ophthalmic solution) administered in conjunction with the UVA light as a photosensitizer.
Evaluate the illness experience of patients with keratoconus as well as the rubbing habits of this population compared to the general population. To do this, the investigators used a questionnaire made by a Bordeaux team with questions on the experience of the patients' illness, their management and their friction habits
Keratoconus is characterized by a thinning of the cornea, which causes a decrease in visual acuity due to astigmatism. Publications suggest that keratoconus is linked to chronic inflammation (increase in pro-inflammatory cytokines and metalloproteinases (MMP). Direct epithelial-stromal interactions (D-ESI) have a role in the induction of metalloproteinases (MMP) and the differentiation of fibroblasts into myofibroblasts via an EMMPRIN membrane glycoprotein (extracellular matrix membran MMP inducer - CD 147). On a healthy cornea, EMMPRIN's effects are prevented by a lack of contact between epithelial and stromal cells through a basement membrane, which is altered in the keratoconus The hypothesis is that stromal thinning of the keratoconus could be related to increased expression of EMMPRIN by epithelial and stromal cells (resulting in increased MMP synthesis), with a preponderance at the most deformed areas. The main objective is to demonstrate a transformation of fibroblasts to myofibroblasts in the corneal stroma of keratoconus patients.
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.
The purpose of the study is to see if brighter lights will allow for shortening of the treatment time required to stabilize the eyes of patients with keratoconus or a bulging cornea. The investigators will be comparing the therapeutic effects of two different higher brightnesses of ultra violet light on a riboflavin treated eye. One light will be twice as bright as the other and the exposure time of these brighter lights to deliver equivalent energy to the cornea will be reduced from the standard 30 minutes to 10 and 5 minutes. Riboflavin is vitamin B2 and the investigators are trying to determine if an identical clinical effect can be achieved the brighter treatment lights are used for shorter times. The investigators will also monitor the clinical effect and the status of the cornea to see if additional risks are associated with the brighter light.
Prospective, randomized, single site to determine the safety and effectiveness of performing corneal collagen cross-linking (CXL) using riboflavin and UVA light in eyes progressive keratoconus or corneal ectasia.