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Non-invasive Therapy For Keratoconus – Ultrasound Enhanced Delivery Of Riboflavin To Cornea For Transepithelial Corneal Collagen Crosslinking
Funder
National Health and Medical Research Council
Funding Amount
$600,658.00
Summary
Keratoconus is a degenerative eye disease which causes corneal thinning. The disease causes visual distortions & loss of vision, and is commonly treated with Corneal Cross-Linking. This involves scraping off the outer protective layer of the cornea so that treatment can be applied. This is painful for patients and carries many risks. This grant assists in the development of a device that is able to deliver the reagent in a painless, non-invasive, effective and safe way.
This proposal seeks to develop a novel non-invasive method of measuring intra-cranial pressure, an important diagnostic parameter in many form of brain injury or neural disease. It works by quantitative video analysis of the pulsation of the major vein in the eye during induced rises in eye pressure. Many years of study by our group have determined the relationship between vein pulsation pressure and intra-cranial pressure, and this information is used to produce an accurate measurement of intra ....This proposal seeks to develop a novel non-invasive method of measuring intra-cranial pressure, an important diagnostic parameter in many form of brain injury or neural disease. It works by quantitative video analysis of the pulsation of the major vein in the eye during induced rises in eye pressure. Many years of study by our group have determined the relationship between vein pulsation pressure and intra-cranial pressure, and this information is used to produce an accurate measurement of intra-cranial pressure without the need for surgery.Read moreRead less
Abnormal growth of blood vessels is a central feature of number of blinding conditions of the eye. Although there are treatments available that reduce the sudden loos of vision in a majority of people with advanced age related macular degeneration, about 20% fail to respond and half gradually loose vision. This project will determine the effectiveness of treating vascular diseases of the retina with a novel therapy that is quite different to that currently available.
Low Cost Smart Screening System For Sight Threatening Eye Disease: Diabetic Retinopathy
Funder
National Health and Medical Research Council
Funding Amount
$529,079.00
Summary
The aim of the project is to develop an automated disease grading and clinical decision support system for diabetic retinopathy (DR) to perform eye screening by primary care providers and nurses. The grading system will automatically extract DR pathology from a patient’s color fundus images by image processing, feature detection and machine learning algorithms. Based on the detected information, the system can classify the patient as non symptom or a specific disease level.
Developing A Novel Glaucoma Surgery For Clinical Use And Commercialisation
Funder
National Health and Medical Research Council
Funding Amount
$565,893.00
Summary
Glaucoma is a potentially blinding eye condition that affects more than 60 million people. The greatest risk factor in glaucoma is high intraocular pressure. Surgical treatment for glaucoma seeks to lower the pressure inside the eye by increasing the drainage of fluid from the eye. There are numerous techniques available but all have risks of complications. This grant seeks to develop a novel approach to the problem using intra-ocular delivery of laser pulses to cut a drainage channel.
Fighting Blindness With A Minimally Invasive Retinal Stimulator
Funder
National Health and Medical Research Council
Funding Amount
$998,194.00
Summary
Retinal degenerative conditions are the leading cause of blindness in developed nations, with over 200 million people afflicted worldwide. Our group has pioneered a minimally-invasive therapeutic stimulator that can arrest retinal degeneration without blocking vision. We are now ready to perform the prerequisite translational studies to develop and test a human-grade device. The ultimate goal is to be the first to develop a commercial therapeutic stimulator that protects against vision loss.