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Intrastromal application of riboflavin for corneal cross-linking
(results will display both Free Papers & Poster)
Session Details
Session Title: Cross-linking I
Session Date/Time: Monday 15/09/2014 | 14:30-16:30
Paper Time: 15:24
Venue: Capital Hall A
First Author: : I.Fischinger SWITZERLAND
Co Author(s): : T. Seiler G. Schmidinger T. Seiler
Abstract Details
Purpose:
To evaluate experimentally the efficacy of corneal crosslinking (CXL) where the
photomediator riboflavin is injected into the corneal stroma via a system of intrastromal
channels.
Setting:
IROC (Institut für refraktive und ophthalmochirurgie)
Methods:
Four groups of pig corneas, 9 corneas each, were compared regarding stress-
strain relationship and UV-absorption. Group 1 had intrastromal channels floated with
riboflavin 0.5%-solution followed by UVA-irradiation (5.4J/cm2); group 2 had the
identical channel system, no riboflavin but identical irradiation; group 3 was treated
according to the Dresden protocol (epi-off); group 4 with native corneae served as a
control group. The intrastromal channels were created by means of a femtosecond laser
(Wavelight/Alcon, Erlangen, Germany). The stress-strain relations were measured in
corneal stripes using a material tester (UStrech, Cellscale, Ontario) at strains up to 12%.
The UV-absorption of the corneas was measured by means of the UVA-source used for
CXL and a UV-power meter (YK-35UV, Lutron Electronic, Taipei, Taiwan).
Results:
The stress needed for a 10% strain was significantly increased by 82% in the
corneas treated with the Dresden protocol compared to native cornea (p=0.0005). With
intrastromal application of riboflavin this significant increase was only 64% (p=0.007).
The channel formation alone did not change the biomechanics of the cornea (p=0.923).
The UVA-absorption after intrastromal riboflavin application was 97.6%, after the
treatment according to the Dresden protocol 91.2% and 42.1% in the native cornea.
Conclusions:
The experiments demonstrate that the intrastromal application of riboflavin
by means of fs-laser generated channelsystem is a feasible “epi-on” approach for corneal
crosslinking. More experimental data will be needed before clinical testing.
Financial Interest:
One or more of the authors... receives consulting fees, retainer, or contract payments from a company producing, developing or supplying the product or procedure presented
