Controlled Elevation of Intraocular Pressure (CEI) Glaucoma Model in Rats.

Abstract

Experimental elevation of intraocular pressure (IOP), a major glaucoma risk factor, has been a mainstay of research into mechanisms of glaucomatous optic nerve damage for decades. Methods that produce sustained IOP elevation can mimic the chronic nature of glaucoma and produce optic nerve damage. However, the pressure course for individual animals can be variable, unpredictably high at times, and difficult to monitor with current tonometry methods. All of this can complicate correlations of pressure history with axonal injury. An alternative is to control the extent and duration of IOP elevation over a period of several hour-long enough to produce axonal injury and gene expression changes within the optic nerve head that may indicate cellular mechanisms of glaucomatous optic nerve damage. The prolonged general anesthesia that this requires does have the potential to reduce systemic blood pressure, which may contribute to axonal injury in the face of elevated IOP. This chapter will describe our Controlled Elevation of IOP (CEI) model in laboratory rats. We will include methods for applying this to several animals at a time, as well as how to maintain blood pressure, oxygenation, and body temperature to ensure that the resulting injury and tissue events reflect the effects of elevated IOP on optic nerve tissues and not simply reduced ocular perfusion and ischemia.