1. Animal model of corneal ectasia in rabbits by intrastromal injection of type II collagenase.
- Author
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Cano-Gómez LE, Casillas-Casillas E, Andrade-Lozano P, Ventura-Juárez J, and Barba-Gallardo LF
- Subjects
- Rabbits, Animals, Collagen Type I, Dilatation, Pathologic, Models, Animal, Collagenases, Keratoconus drug therapy
- Abstract
Introduction: Collagenase II has been used to induce experimental keratoconus in animal models. However, its effect when administered by intrastromal injection has not been studied, so the purpose of this study was to study the effects of intrastromal injection of collagenase II on corneal surface and corneal morphology., Methods: Six New Zealand rabbits were used, collagenase II was administered by intrastromal injection (5μL of 2.5mg/mL) in the right eyes and balanced salt solution in the left eyes. Keratometry was performed to evaluate curvature alteration, also at day 7 corneas were obtained and Hematoxylin-Eosin staining was performed to examine morphologic changes. Likewise, changes in type I collagen expression were investigated by Sirius Red staining and semiquantitative PCR., Results: K1, K2 and Km presented differences in the means with statistically significant changes. The morphological changes that were demonstrated were degradation and irregular arrangement of the corneal stroma, increase in the cellular density of keratocytes and slight cellular infiltration. Finally, it was demonstrated that there is greater expression of type I collagen fibers in the experimental group as opposed to the controls and the thickness of the fibers also increased due to the action of collagenase II, however, in terms of genetics there were no changes in the expression of type I collagen at molecular level between the control and experimental groups., Conclusions: Collagenase II administered by intrastromal injection is able to induce changes in the corneal surface and stroma, being able to simulate a model of keratoconus., (Copyright © 2023 The Author(s). Published by Elsevier España, S.L.U. All rights reserved.)
- Published
- 2023
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