Keratoconus is a corneal ectatic disease responsible for a loss of visual acuity when the steepening increases. Corneal collagen crosslinking (CXL) is a procedure that appears to halt or slow down the progression and avoid the visual impairment. However, such a technique requires the epithelium debridement, wich can be responsible for severs complications. This study evaluate the safety and efficacy of transepithelial corneal crosslinking with oxygen to halt or slow down the progression of keratoconus. Such a procedure avoids the epithelium debridement and the related complications.
Keratoconus is a common bilateral progressive corneal ectatic disease causing visual impairment by inducing irregular astigmatism and corneal opacities. This disorder typically begins during teenage years. Patients with severe forms may need a corneal transplantation. The CXL procedure, described in 1998, allows to halt or to slow down the disease progression and may avoid other surgeries, e.g. transplantation. This technique creates links between collagen fibrils in order to rigidify the corneal stroma. The corneal stroma is soaked with a riboflavin solution (vitamin B2) before being exposed to ultraviolet-A (UVA) radiations. In the current standard CXL, the central corneal epithelium must be debrided to allow the penetration of riboflavin into the cornea, with a risk of side effects, such as pain for the first two post-operative days, temporary loss of visual acuity during the first three months, and serious complications such as infections and stromal opacity due to corneal scarring Transepithelial crosslinking is a non-invasive technique in which benzalkonium chloride is used to enhance the penetration of riboflavin into the cornea. To improve the reaction, a device provides oxygen to the corneal surface. The transepithelial technique could allow intrastromal riboflavin diffusion, while keeping the corneal epithelium on, conserving the efficiency of the standard procedure without the complications induced by epithelial debridement. Patient with progressive keratoconus will be included and treated with the transepithelial procedure. The follow-up will last for one year. Every follow-up visit will evaluate the security of the procedure and its efficacy to stop or slow down the progression of the disease. Interrogatory and slit lamp examination will be performed to investigate the potential adverse effects of the procedure.
Study Type
INTERVENTIONAL
Allocation
NA
A supplemental oxygen system during the cross linking will be used to apply filtered, humidified oxygen across the surface of the eye through a mask. The oxygen flow will be turned on immediately prior to initiation of irradiation, and will continue through the irradiation period. The supplemental oxygen flow will be shut off following completion of the programmed irradiation time. All subjects will be evaluated at screening, day 3, and 1, 3, 6, 12 and 24 months after treatment. At the same time all the potential adverse effects will be relieved.
University Hospital Toulouse
Toulouse, France
Efficacy of the transepithelial crosslinking method
The non-comparative evaluation of the efficacy of crosslinking of transepithelial corneal collagen with oxygen in the stabilization of progressive keratoconus during 12 months of follow-up. \- Change from pretreatment baseline : keratometry at one year.
Time frame: One year
Efficacy of the transepithelial crosslinking method
The non-comparative evaluation of the efficacy of crosslinking of transepithelial corneal collagen with oxygen in the stabilization of progressive keratoconus during 12 months of follow-up. \- Change from pretreatment in manifest refraction spherical equivalent at one year.
Time frame: One year
Efficacy of the transepithelial crosslinking method
\- Change from pretreatment baseline : best corrected/uncorrected visual acuity at one year
Time frame: One year
Security of the transepithelial crosslinking
The non-comparative evaluation of the safety of crosslinking of transepithelial corneal collagen with oxygen in the stabilization of progressive keratoconus during 12 months of follow-up. \- Change from pretreatment baseline : intraocular pressure at one year.
Time frame: One year
Security of the transepithelial crosslinking
The non-comparative evaluation of the safety of crosslinking of transepithelial corneal collagen with oxygen in the stabilization of progressive keratoconus during 12 months of follow-up. \- Change from baseline in endothelial cell count at one year.
Time frame: One year
Incidence and security of the transepithelial crosslinking
\- Incidence of treatment emergent ocular adverse events reported during the study.
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Purpose
TREATMENT
Masking
NONE
Enrollment
34
Time frame: One year
Incidence and security of the transepithelial crosslinking
\- Percentage of eyes with loss in best corrected of three lines from pretreatment baseline.
Time frame: One year