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
Pterygia, one of the most common ocular complaints in Australia and worldwide, are thought to originate from overexposure to UV light. We propose that UV-irradiation stimulate certain cells in the eye to produce cytokines, growth factors and enzymes which degrade scaffold proteins such as collagens. These enzymes may play a key role in the progressive and invasive nature of pterygia. Dissecting the mechanism(s) by which UV light induces these proteins will lead to new and more reliable therapies ....Pterygia, one of the most common ocular complaints in Australia and worldwide, are thought to originate from overexposure to UV light. We propose that UV-irradiation stimulate certain cells in the eye to produce cytokines, growth factors and enzymes which degrade scaffold proteins such as collagens. These enzymes may play a key role in the progressive and invasive nature of pterygia. Dissecting the mechanism(s) by which UV light induces these proteins will lead to new and more reliable therapies for the treatment of pterygia.Read moreRead less
Cataract Surgery And Risk Of Age-related Macular Degeneration (AMD)
Funder
National Health and Medical Research Council
Funding Amount
$339,750.00
Summary
Cataract surgery currently ranks as one of the most frequently performed and successful surgical procedures in Australia (125,000 operations-year). Age-related macular degeneration (AMD) is the principal cause of moderate visual impairment and blindness, currently accounting for blindness in between 17,300 and 30,400 Australians. Past studies have not shown a definite relationship between cataract and AMD. Follow-up data from clinical case series and from two older population-based studies (the ....Cataract surgery currently ranks as one of the most frequently performed and successful surgical procedures in Australia (125,000 operations-year). Age-related macular degeneration (AMD) is the principal cause of moderate visual impairment and blindness, currently accounting for blindness in between 17,300 and 30,400 Australians. Past studies have not shown a definite relationship between cataract and AMD. Follow-up data from clinical case series and from two older population-based studies (the Beaver Dam and Blue Mountains Eye Studies) suggested that cataract surgery might increase the risk of subsequent development of AMD in operated eyes of older persons. Such an increased AMD risk in eyes after cataract surgery appears to be both short term (observation from clinical case series) and long term (evidence from population-based studies), and persists after taking into consideration age, sex, smoking, preexisting early stage lesions of the disease and correlation between both eyes. The proposed study is to follow a large number of older patients who are undergoing cataract surgery in Western Sydney Eye Hospital and in two ophthalmologists' private rooms. Rates of subsequent development of AMD will be compared between operated and non-operated eyes, and also between the surgical cohort and the Blue Mountains Eye Study cohort. We will document macular conditions carefully before and after surgery to exclude the possibility of confounding issues. We will also investigate whether the increased risk occurs in certain subgroups of patients at high risk of AMD. If an increased AMD risk from cataract surgery is confirmed in subgroups of patients, a modified clinical practice may be indicated, to maximize cataract surgery benefit and minimize the risk of vision loss from AMD after surgery. Changes may include additional patient information and consent about this risk, delayed cataract surgery within limits of visual function, and close postoperative follow up.Read moreRead less