Neuroprotection In A Model Of Chronic Ocular Hypertension
Funder
National Health and Medical Research Council
Funding Amount
$264,221.00
Summary
Damage can occur to nervous tissues like the retina and brain when there is a reduction in the blood supply. This can occur in the eye disease, glaucoma, in which the pressure inside the eye is elevated. This serious condition often results in blindness. Much of the neuronal damage is thought to be due to the release of an excess of glutamate. Glutamate is a chemical (neurotransmitter) that nerves use to communicate with each other, but it is toxic to nerves when present at high concentrations. ....Damage can occur to nervous tissues like the retina and brain when there is a reduction in the blood supply. This can occur in the eye disease, glaucoma, in which the pressure inside the eye is elevated. This serious condition often results in blindness. Much of the neuronal damage is thought to be due to the release of an excess of glutamate. Glutamate is a chemical (neurotransmitter) that nerves use to communicate with each other, but it is toxic to nerves when present at high concentrations. This project will utilise a new model of glaucoma to investigate the mechanisms that regulate the concentration of glutamate in the retina. If these mechanisms could be made to work more efficiently, they may prevent the build-up of the glutamate and therefore prevent damage to the nerve cells. Understanding these mechanisms will aid in the development of an effective treatment to prevent visual loss in the 150,000 Australians who suffer from glaucoma.Read moreRead less
The aim of this project is to improve our understanding of the role that increased eye pressure (intraocular pressure or IOP) plays in the development of glaucoma-related nerve death and associated vision loss. Despite being the second leading cause of vision loss in Australia, our understanding of the factors that damage nerves in the eye (the ganglion cells that carry visual information to the brain) in glaucoma remains incomplete. For example, elevated eye pressure is a well-established risk ....The aim of this project is to improve our understanding of the role that increased eye pressure (intraocular pressure or IOP) plays in the development of glaucoma-related nerve death and associated vision loss. Despite being the second leading cause of vision loss in Australia, our understanding of the factors that damage nerves in the eye (the ganglion cells that carry visual information to the brain) in glaucoma remains incomplete. For example, elevated eye pressure is a well-established risk factor for glaucoma, but as many as half of those with glaucoma do not have high eye pressure. Clinical data suggests that pressure fluctuations (or spikes), which go unnoticed in routine clinical check ups, may be involved in glaucoma onset and progression. To date there has been no direct evidence to support this contention. This project aims to use a novel experimental model of pressure elevation in rodents to consider this possibility. By measuring the eye's electrical response to a flash of light it is possible to sensitively assess how pressure spikes, that are known to occur with regularity in humans, might affect the health of retinal ganglion cells. Anatomical measures will also be used to establish the sequence of events that cause cellular damage. This knowledge is an important public health issue, because it will improve understanding of the risk factors for the development of glaucoma. The results may lead to improvements in detection and treatment strategies such as closer monitoring for pressure spikes and more aggressive treatment for those who show greater variability in their eye pressures.Read moreRead less