Genetic Determinants Of Inherited Optic Neuropathies
Funder
National Health and Medical Research Council
Funding Amount
$249,750.00
Summary
Glaucoma is a slowly progressive visual disorder of the optic nerves often but not always associated with elevated pressure in the eyes. There is a strong genetic component. It is estimated to affect in excess of 60 million people worldwide with more than 6 million of those blind in both eyes. It is the second commonest cause of visual impairment in the developed world, and is present in up to 10% of the population by age 90. Numbers of affected patients in Australia are expected to double in th ....Glaucoma is a slowly progressive visual disorder of the optic nerves often but not always associated with elevated pressure in the eyes. There is a strong genetic component. It is estimated to affect in excess of 60 million people worldwide with more than 6 million of those blind in both eyes. It is the second commonest cause of visual impairment in the developed world, and is present in up to 10% of the population by age 90. Numbers of affected patients in Australia are expected to double in the next 30 years. Current methods of early detection and treatment are often inadequate, and associated visual loss is irreversible. There is a strong need for greater understanding of the disease process and new strategies to prevent and treat visual loss. Two less common causes of untreatable optic nerve blindness are Leber Hereditary Optic Neuropathy (LHON) and autosomal dominant optic atrophy (ADOA) which occur in younger age groups than most cases of glaucoma, and hence sufferers may experience substantial physical, emotional and economic hardship. Over a 10 year period we have seen large numbers of patients with all three eye conditions and have developed a powerful study to determine the genes which cause optic nerve blindness and their relative importance. The research is gathering momentum and the genetics of all 3 conditions are now partly understood. This project seeks to analyse a new major glaucoma gene (Optineurin) in our Australian population and to try to understand the way in which a number of genes interact to cause blindness in some patients but not others. This work will lead to greater understanding of these causes of blindness and is likely to lead to new screening tests to know who is at most risk, and the opportunity to develop and test new treatments targeted to the underlying genetic problem.Read moreRead less
Evaluation of the optic nerve head (optic disc) is important in the diagnosis of various eye diseases, including glaucoma. The influence of genetics on the shape of the optic disc is not well understood because shape is difficult to measure. Using a novel method of shape analysis, this study will examine optic disc shape in populations of Australian twins and individuals with optic nerve disease. It will contribute to the genetic understanding of the optic nerve head and related disorders.
Childhood Retinal Characteristics: Optical Coherence Tomography And Clinical Comparisons
Funder
National Health and Medical Research Council
Funding Amount
$64,631.00
Summary
Optical Coherence Tomography (OCT) of the optic disc and retina has been introduced rapidly into clinical practice, yet there is a paucity of data on its normal distribution or its comparisons with clinical appearances as seen in photographic images. Using the extensive database of OCT and optic disc photos of a population sample of 4091 schoolchildren, influences of confounders (eye size and shape, body size, refraction) will be assessed to aid clinicians in their interpretation of OCT results.
OCULAR PERFUSION PRESSURE: A MODIFIABLE RISK FACTOR FOR GLAUCOMA?
Funder
National Health and Medical Research Council
Funding Amount
$327,560.00
Summary
This project aims to study the mechanisms underlying glaucoma, the second leading cause of vision loss. Specifically it will provide proof for the idea that a person can develop vision loss without having high eye pressure, if their blood pressure cannot provide enough supply to the eye. It will achieve this by combining expertise from several disciplines; physiology, blood pressure control, anatomy and biochemistry. This project will help to improve glaucoma detection, monitoring and treatment.