PURPOSE: To develop a new rabbit model of corneal endothelial injury using a neodymium-doped yttrium aluminum garnet (Nd:YAG) laser. METHODS: The corneal endothelia of 2 groups of New Zealand white rabbits were treated with an Nd:YAG laser in a uniformly scattered fashion. Rabbits in group A underwent laser burns on the whole corneal endothelium, including the limbus area, whereas rabbits in group B were subjected to laser burns in the central 9-mm diameter zone of the endothelium. Slit-lamp biomicroscopy, optical coherence tomography, applanation tonometry, confocal microscopy, scanning electron microscopy, and histological examinations were performed during 4 weeks of follow-up. RESULTS: In both groups, dotted or focal corneal endothelium defects were directly observed. The stroma was intact. Right after laser application, a series of clinical manifestations appeared, including subepithelial and stromal edema, increased central corneal thickness, and corneal opacity. Laser burn had more notable effects in group A than in group B. In both groups, we observed no damage to the intraocular structures, and intraocular pressure was normal after laser treatment. CONCLUSIONS: Nd:YAG laser treatment in a 9-mm diameter zone of the endothelium can effectively induce bullous keratopathy in a rabbit, whereas treatment for the entire corneal endothelium maintains bullous keratopathy for a longer period. The procedure is simple and reproducible, and it retains normal intraocular structures. This study provided a promising model for future research into endothelial cell damage and for the development of new therapies.
PURPOSE: To develop a new rabbit model of corneal endothelial injury using a neodymium-doped yttrium aluminum garnet (Nd:YAG) laser. METHODS: The corneal endothelia of 2 groups of New Zealand white rabbits were treated with an Nd:YAG laser in a uniformly scattered fashion. Rabbits in group A underwent laser burns on the whole corneal endothelium, including the limbus area, whereas rabbits in group B were subjected to laser burns in the central 9-mm diameter zone of the endothelium. Slit-lamp biomicroscopy, optical coherence tomography, applanation tonometry, confocal microscopy, scanning electron microscopy, and histological examinations were performed during 4 weeks of follow-up. RESULTS: In both groups, dotted or focal corneal endothelium defects were directly observed. The stroma was intact. Right after laser application, a series of clinical manifestations appeared, including subepithelial and stromal edema, increased central corneal thickness, and corneal opacity. Laser burn had more notable effects in group A than in group B. In both groups, we observed no damage to the intraocular structures, and intraocular pressure was normal after laser treatment. CONCLUSIONS: Nd:YAG laser treatment in a 9-mm diameter zone of the endothelium can effectively induce bullous keratopathy in a rabbit, whereas treatment for the entire corneal endothelium maintains bullous keratopathy for a longer period. The procedure is simple and reproducible, and it retains normal intraocular structures. This study provided a promising model for future research into endothelial cell damage and for the development of new therapies.
Authors: Sangwan Park; Brian C Leonard; Vijay Krishna Raghunathan; Soohyun Kim; Jennifer Y Li; Mark J Mannis; Christopher J Murphy; Sara M Thomasy Journal: Ann Transl Med Date: 2021-08
Authors: José David Ríos; Jae Hyek Choi; Jennifer S McDaniel; Sandra Becera; Leticia Bice; Peter Johnson; Jeffery M Cleland; Randolph D Glickman; Matthew A Reilly; Walt Gray; William E Sponsel; Brian J Lund Journal: Mol Vis Date: 2019-06-05 Impact factor: 2.367