Optical And Neural Limits Of Visual Performance In Myopia
Funder
National Health and Medical Research Council
Funding Amount
$191,902.00
Summary
Short-sightedness (myopia) is one of our most common eye problems, affecting approximately 20% of people. It is usually due to the eye becoming too long for its power. While we can correct short-sight with contact lenses, spectacles and more recently refractive surgery, recent evidence shows that the vision of corrected myopes is poorer than that of people who have good distance vision without the need for an optical correction. This reduction is present even when the optical minification of spe ....Short-sightedness (myopia) is one of our most common eye problems, affecting approximately 20% of people. It is usually due to the eye becoming too long for its power. While we can correct short-sight with contact lenses, spectacles and more recently refractive surgery, recent evidence shows that the vision of corrected myopes is poorer than that of people who have good distance vision without the need for an optical correction. This reduction is present even when the optical minification of spectacle lenses is taken into account (the lenses used to correct short-sightedness make objects look smaller). It is possible that the anatomical changes to the eye that occur in short-sightedness are the cause of the reduced vision. Even if the optics can be fully corrected with refractive surgery, as is now being proposed, this may not result in excellent vision. The anatomical changes may occur in different parts of the eye and depending on where they occur the nature of the visual reduction will vary. The location of the retinal changes may also be important in terms of eventual pharmacological treatments for short-sightedness. In addition, the significance of the visual reduction, in terms of its effect on the functioning of short-sighted people, e.g. ability to perform under less than optimal visual conditions such as in the presence of glare or reduced light levels, is not known. We plan to investigate this by identifying the optical and neural contributions to visual performance in short-sighted people.Read moreRead less
Age Related Changes In The Optics Of Adult Human Eyes
Funder
National Health and Medical Research Council
Funding Amount
$199,437.00
Summary
Vision is limited by both optical and retinal-neural factors. Our understanding of the optical structure of the human eye is limited, partcularly for the refractive index gradient of the lens, let alone how these change with age. This understanding is needed if we are to accurately predict or assess the long-term effects of refractive surgical procedures or ophthalmic prostheses on vision. In this project, we aim to substantially improve our understanding of the optical properties of the eye by ....Vision is limited by both optical and retinal-neural factors. Our understanding of the optical structure of the human eye is limited, partcularly for the refractive index gradient of the lens, let alone how these change with age. This understanding is needed if we are to accurately predict or assess the long-term effects of refractive surgical procedures or ophthalmic prostheses on vision. In this project, we aim to substantially improve our understanding of the optical properties of the eye by 1) developing methods for measuring these quantities and then applying the methods to investigate how these properties vary with age and focussing, and 2) determine the optical contribution to reduction in visual performance with increasing age. Our research will be used to determine norms for growth and aging patterns in the normal human eye, particularly the lens. It will yield significant outcomes through 1. determination of the long-term success of custom refractive surgery aimed at improving vision by eliminating the ocular aberrations, and 2. indicating the potential improvement in ocular performance provided by artificial intraocular lenses or any other type of correction.Read moreRead less
The GABAergic System In Eye Growth Control And Myopia
Funder
National Health and Medical Research Council
Funding Amount
$318,142.00
Summary
Shortsightedness (myopia) is the most common visual disorder. High myopia is associated with an increased risk of eye diseases. Current treatments do not stop myopia developing or decrease the associated risk of eye disease. The continued worsening of myopia is very concerning. A safe effective treatment that can either prevent myopia or stop its progression to extreme levels is needed. We have data showing that GABA ergic drugs modify myopia. This proposal will determine the mechanisms.
Metrics Of Optical Quality Predictive Of Visual Performance In Eye Disease
Funder
National Health and Medical Research Council
Funding Amount
$121,655.00
Summary
Highly precise measurement of the optical quality of the human eye (how well an image is formed by light passing through the eye) is now possible. While eye's optics can be measured, it is less clear how to report optical quality in a way that is related to how well the eye sees; optics and vision are complex. This project will attempt to find ways to describe the optical quality of the human eye that predicts how well the eye sees - both for the normal eye and eyes with disease.
Interrogation Of Two Novel Genetic Susceptibility Loci For Multiple Sclerosis
Funder
National Health and Medical Research Council
Funding Amount
$840,615.00
Summary
This proposal, from the Australia and New Zealand multiple sclerosis (MS) Genetics Consortium, aims to interrogate two new genes that it recently identified as predisposing for the development of MS. Both of the genes underlying these findings are also associated with risk of developing other autoimmune diseases such as type 1 diabetes, rheumatoid arthritis and Graves' disease.
Climate Change And Rural Communities: Integrated Study Of Physical And Social Impacts, Health Risks And Adaptive Options
Funder
National Health and Medical Research Council
Funding Amount
$611,599.00
Summary
Rural Australia has begun to experience climate change impacts - which will increase in future. Losses in farm yields, water supplies, property, community morale and family incomes have diverse health effects. We will study the separate and joint effects of climate change and associated extreme events (e.g., bushfires) on selected health outcomes. Using integrative methods, we will clarify the main influences on health risks, their future projections, and how best to intervene to lessen risks.
Macrophage-regulated Tissue Remodelling In Endometrial Receptivity For Embryo Implantation And Pregnancy Success
Funder
National Health and Medical Research Council
Funding Amount
$456,779.00
Summary
Infertility and recurrent miscarriage affect 60-80 million couples globally, including 15% of couples in Australia. Moreover, 1 in 6 pregnancies is affected by pre-eclampsia, low birth weight or preterm labour. Infertility and other pathologies in pregnancy often result from failure of the maternal tissues to adequately support embryo implantation and development of the placenta, leading to insufficient nutritional support of the developing fetus. We have discovered in mice that disruption in th ....Infertility and recurrent miscarriage affect 60-80 million couples globally, including 15% of couples in Australia. Moreover, 1 in 6 pregnancies is affected by pre-eclampsia, low birth weight or preterm labour. Infertility and other pathologies in pregnancy often result from failure of the maternal tissues to adequately support embryo implantation and development of the placenta, leading to insufficient nutritional support of the developing fetus. We have discovered in mice that disruption in the populations of immune cells called macrophages within the uterine endometrial lining can reduce the receptivity of the endometrum to embryo implantation, and can lead to fetal growth retardation and impaired health after birth. The purpose of this project is to delineate the precise functions of macrophages in interacting with other cells in the endometrium to facilitate attachment of the embryo, its invasion into maternal tissues, and its access to an adequate blood supply as the placenta develops during early pregnancy. We will employ state of the art experimental strategies including genetic models to deplete endometrial macrophage populations in mice, and will then study the implications for changes in endometrial tissue structure and function. Furthermore we will investigate the long term consequences of early macrophage perturbations for the fetus and neonate after birth. This study will improve our understanding of how determinants of macrophage function such as infection and inflammatory conditions, male factors, nutrition and stress can impair fertility and compromise optimal pregnancy outcome in humans.Read moreRead less