A Novel and Reversible Experimental Primate Ocular Hypertension Model: Blocking Schlemm’s Canal

Abstract

Introduction: The purpose of this study was to establish a novel and reversible experimental ocular hypertension primate model by blocking Schlemm’s canal. Methods: A model was induced in adult cynomolgus monkeys (n=4) by blocking Schlemm’s canal with an inserted microcatheter (200 μm diameter); it was removed 6 weeks later from one monkey to reverse the elevated intraocular hypertension. All animals were monitored for 11 months; weekly measurements of intraocular pressure and biweekly examinations with spectral domain optical coherence tomography and disc photography were performed. Histopathology of the eye and retinal ganglion cell counts were completed at the end of the study. Results: The intraocular pressure of the blocked eyes was significantly higher than that of the contralateral eyes at 1 month after the blockage (P <0.001); the mean intraocular pressure was similar to the contralateral eye from 1 week to 11 months after the microcatheter was removed in monkey A (P=0.170). The mean intraocular pressure of the blocked eyes of the remaining monkeys was significantly higher than that of the contralateral eyes throughout the follow-up period (P <0.001). The fundus imaging showed decreases in the retinal nerve fibre layer thickness, and localised defects were observed in two blocked eyes. A histological examination demonstrated that the number of retinal ganglion cells in blocked eyes of monkeys A, B, and C was significantly decreased compared with the control. Conclusion: Schlemm’s canal blockage alone in the monkey model produces sustained elevation of intraocular pressure, which present a novel animal model for studying the pathogenesis of glaucoma.