Translational Clinical Research In Major Eye Diseases (TCR-Eye)
Funder
National Health and Medical Research Council
Funding Amount
$2,552,355.00
Summary
The four eye diseases that cause the majority of vision loss in Australia, age-related macular degeneration, diabetic retinopathy, cataract and glaucoma, impose a significant socio-economic burden, costing our nation -$lo billion a year. This CCRE will fund a world leading, broad-based, clinical and translational research program in Melbourne and Sydney to tackle these eye diseases. The new knowledge and innovative clinical strategies developed in this CCRE will impact on clinical ophthalmology ....The four eye diseases that cause the majority of vision loss in Australia, age-related macular degeneration, diabetic retinopathy, cataract and glaucoma, impose a significant socio-economic burden, costing our nation -$lo billion a year. This CCRE will fund a world leading, broad-based, clinical and translational research program in Melbourne and Sydney to tackle these eye diseases. The new knowledge and innovative clinical strategies developed in this CCRE will impact on clinical ophthalmology and the practice of other medical disciplines.Read moreRead less
Characterizing Novel Therapeutic Interventions In A New Model Of Focal Retinopathy
Funder
National Health and Medical Research Council
Funding Amount
$536,794.00
Summary
Focal retinopathies such as age-related macular degeneration pose an immense burden on our society, both socially and economically. We have recently developed an animal model that allows us to investigate for the first time, drugs and therapies that might be used to treat AMD both after its onset, and more significantly, in at-risk populations before onset of the disease.
Receptor-mediated Actions Of Prorenin In Diabetic Retinopathy
Funder
National Health and Medical Research Council
Funding Amount
$733,841.00
Summary
Despite improvements in patient care, the incidence of diabetic retinopathy is dramatically increasing. Recent evidence suggests that a component of a hormonal system, called prorenin, may participate in the development of diabetic organ disease. We will evaluate the role of prorenin in vascular and nerve damage in animal models of diabetic retinopathy. We will determine if a new inhibitor of prorenin, prevents retinal injury and is a potential treatment for diabetic retinopathy.
Gene Based Treatment Strategies For Diabetic Retinopathy
Funder
National Health and Medical Research Council
Funding Amount
$2,630,000.00
Summary
Diabetic retinopathy is the leading cause of blindness in the working population of developed countries and it is an increasing problem in the developing world. Present therapy involves extensive laser destruction of the light-detecting part of he retina. In addition, it is not only effective when administered at an appropriate stage in the disease process. Consequently, there is an urgent need for the development of better, prophylactic, easily administrable and cheaper therapies. This project ....Diabetic retinopathy is the leading cause of blindness in the working population of developed countries and it is an increasing problem in the developing world. Present therapy involves extensive laser destruction of the light-detecting part of he retina. In addition, it is not only effective when administered at an appropriate stage in the disease process. Consequently, there is an urgent need for the development of better, prophylactic, easily administrable and cheaper therapies. This project aims to develop a potentially permanent solution to alleviate diabetes-related blindness in the world. The project combines several very recent scientific advances into one strategy to combat diabetic retinopathy at a molecular level. Vision is our most important sensory organ that cannot be replaced. Thus, human trials can only be conducted following extensive animal safety and efficacy trials. To date the development of new therapies has been seriously hampered by the lack of appropriate, easy to reproduce animal models for different stages of diabetic retinopathy. In addition, it aims to identify new therapeutic agents from molecules that are naturally produced by the retina while fighting the disease. Finally, tested and evaluated in the animal models. The most successful therapeutic candidates will then be further developed for human trials.If successful, our approach will potentially have a major impact on the treatment of diabetic retinopathy and possibly on all diabetic vascular diseases. A single injection might only be necessary to prevent the development of diabetic retinopathy, which would represent a significant weapon in the management of patients. In addition, successful application of secretion gene therapy in the eye might open up the possibility to introduce the same concept for the treatment of larger organs undergoing microvascular changes as a result of diabetes.Read moreRead less
INTRARETINAL OXYGEN CONSUMPTION AND THE PREVENTION OF HYPOXIA IN RETINAL ISCHEMIA
Funder
National Health and Medical Research Council
Funding Amount
$164,444.00
Summary
Adequate oxygen supply to the retina is critical for normal visual function. The oxygen is normally supplied by the blood flowing in the two circulations that support the retina. These are the choroidal circulation, lying behind the retina, and the retinal circulation, which supports the front half of the retina. The retinal circulation is particularly vulnerable to vascular disease and insufficient blood flow (ischemia). Vascular changes are involved in a wide range of retinal diseases which ar ....Adequate oxygen supply to the retina is critical for normal visual function. The oxygen is normally supplied by the blood flowing in the two circulations that support the retina. These are the choroidal circulation, lying behind the retina, and the retinal circulation, which supports the front half of the retina. The retinal circulation is particularly vulnerable to vascular disease and insufficient blood flow (ischemia). Vascular changes are involved in a wide range of retinal diseases which are currently responsible for the majority of new blindness in our community. The choroidal circulation is relatively robust, and offers a potential avenue for increasing oxygen delivery to the retina in the clinical management of ischemic retinal diseases. The feasibility of such an approach is strongly dependent on the oxygen requirements of the retina, and how this is influenced by retinal ischemia. We plan to find out how much oxygen is consumed by the many different layers within the retina under normal conditions and then determine how this changes under ischemic conditions. We will then see if we can supply enough oxygen from the choroid by a combination of raising the oxygen content of the blood, increasing choroidal blood flow, and reducing the amount of oxygen used by the outer half of the retina. Our experiments will be done in laboratory rats, but the same principles are readily transferable to humans if they prove to be beneficial in protecting the retina from ischemic damage. Our study will also quantify the relationship between oxygen levels in the blood stream, and those in the different layers of the retina. This information may prove valuable in the treatment and the prevention of other retinal diseases where the manipulation of the intraretinal oxygen environment is an exciting new avenue of research.Read moreRead less