Inductive Interactions Between Lens And Optic Cup Specify Cell Fates
Funder
National Health and Medical Research Council
Funding Amount
$265,500.00
Summary
Normal eye development depends on interactions between embryonic eye tissues. In the front part of the eye inductive interactions between lens and optic vesicle are important for the formation and growth of lens, ciliary body and iris. Our recent studies indicate that a family of developmentally important growth factors, the Wnts, plays key roles in this process. Our proposed studies will examine, for the first time, the role of Wnts in lens, ciliary body and iris development. Specific experimen ....Normal eye development depends on interactions between embryonic eye tissues. In the front part of the eye inductive interactions between lens and optic vesicle are important for the formation and growth of lens, ciliary body and iris. Our recent studies indicate that a family of developmentally important growth factors, the Wnts, plays key roles in this process. Our proposed studies will examine, for the first time, the role of Wnts in lens, ciliary body and iris development. Specific experimental outcomes will show if Wnts are important in promoting the formation and maintenance of the front part of the lens, the lens epithelium. The outcomes will also give us information on the molecules that mediate the effects of Wnts on lens cells and if regulatory factors from the lip of the optic cup-ciliary body can influence the pathways by which Wnts can influence the lens cells. In addition we will learn if lens-derived Wnts have a role in the formation of ciliary body and iris. Identifying factors that regulate the formation of eye tissues is fundamental to understanding the molecular basis of eye disease. For example, cataract is the most common cause of blindness in the world. Cataract surgery is the most common surgical procedure and is placing an ever-increasing burden on health care budgets. Cataracts that most commonly require surgery usually involve abnormal growth and behaviour of lens cells such as occurs in posterior subcapsular cataract and posterior capsular opacification (also known as aftercataract because it occurs subsequently to cataract surgery). Identifying molecules and mechanisms that are involved in normal formation and growth of lens cells is fundamental to understanding these diseases. In addition, as it is well known that the lens is required for the normal formation of the front part of the eye, including the ciliary body and iris, results from this study may also shed light on some developmental abnormalities such as small eye.Read moreRead less
Novel Ophthalmic Topical Formulation Targeting Molecular Pathogenesis Of Corneal Haze
Funder
National Health and Medical Research Council
Funding Amount
$296,090.00
Summary
Presently, no drugs are proven to cure corneal haze/scarring, major leading cause of global blindness. Haze is caused by eye trauma, infections or refractive laser surgeries. We aim to test a non toxic, novel ophthalmic topical formulation developed to act on molecular and cellular targets of haze formation. The successful completion of the study will determine formulation’s optimal dose, safety and efficacy for its future potential clinical use in reversing corneal scarring/haze without side ef ....Presently, no drugs are proven to cure corneal haze/scarring, major leading cause of global blindness. Haze is caused by eye trauma, infections or refractive laser surgeries. We aim to test a non toxic, novel ophthalmic topical formulation developed to act on molecular and cellular targets of haze formation. The successful completion of the study will determine formulation’s optimal dose, safety and efficacy for its future potential clinical use in reversing corneal scarring/haze without side effects.Read moreRead less
THE ROLE OF MONOCYTIC LINEAGE CELLS IN MODELS OF CORNEAL DISEASE
Funder
National Health and Medical Research Council
Funding Amount
$311,567.00
Summary
Vision relies on sharp, focused undistorted images passing through the cornea, the clear 'window' at the front of the eye. Corneal disease causes over 5 million cases of blindness worldwide. In patients who damage the delicate covering of the cornea, due to trauma or contact lens wear, there is an increased risk of infection that may lead to blindness. This project will study the ways in which immune cells in the cornea detect invasion by potential pathogens.
A Single Digital Handheld Imaging Device For Use In Both Ophthalmology And Dentistry
Funder
National Health and Medical Research Council
Funding Amount
$431,221.00
Summary
Our aim is to produce and validate a single digital imaging device which can be used in ophthalmology (both for retinal and anterior segment imaging) and dentistry. This device will be low-cost, easy-to-operate and portable. Our planned development of the novel screening tool should help in bringing high quality, lower cost health care to those without easy access to it, firstly to residents of rural areas in Australia and then in developing countries in our region. This can be achieved by more ....Our aim is to produce and validate a single digital imaging device which can be used in ophthalmology (both for retinal and anterior segment imaging) and dentistry. This device will be low-cost, easy-to-operate and portable. Our planned development of the novel screening tool should help in bringing high quality, lower cost health care to those without easy access to it, firstly to residents of rural areas in Australia and then in developing countries in our region. This can be achieved by more efficient screening methods and redirecting resources to target those with treatable eye disease only. The detection process can be progressively transferred to less expensive health workers while ophthalmologist input can be redirected to monitoring the screening results and performing surgery. The dentists travel infrequently to rural and remote WA. If the dentist can pre plan their treatment then it will be more efficient and possible to treat more people at each visit to remote and rural WA. With the help of the proposed imaging device for dentistry, the nurses and other allied personnel should be able to send the digital images in advance to dentist over Internet and therefore help dentist pre-plan their treatment. As a result, improved dental care for rural, remote and underserved communities will occur.Read moreRead less
Genetic And Molecular Basis Of Congenital Cataracts
Funder
National Health and Medical Research Council
Funding Amount
$454,510.00
Summary
Cataracts are caused when the lens of the eye (which focuses light), loses transparency. They typically occur in older individuals, but can also occur in children, even as early as from birth. They usually result in severe vision impairment which can result in complete blindness. The only treatment is invasive surgery where the outcomes are poor, particulary in very young children. This research aims to discover the genes that cause cataract in children and to investigate how cataracts form. We ....Cataracts are caused when the lens of the eye (which focuses light), loses transparency. They typically occur in older individuals, but can also occur in children, even as early as from birth. They usually result in severe vision impairment which can result in complete blindness. The only treatment is invasive surgery where the outcomes are poor, particulary in very young children. This research aims to discover the genes that cause cataract in children and to investigate how cataracts form. We are working with several large Australian families that have severe childhood cataracts in order to identify the specific genes that cause their disease. This is achieved through an investigation of the entire genome of these families which allows us to precisely pinpoint any genetic changes. We can then look for these changes in the genes in other childhood cataract patients as well as in adults with cataracts. This information will increase our understanding of how the lens of the eye works and how cataracts can form. One gene that can cause cataracts has already been identified, this is the Nance-Horan Syndrome gene. We will investigate the role of this gene in the lens of the eye. This gene also causes other severe disabilities including mental retardation. The exact function of this gene is unknown but by determining how it works we will be able to better understand cataract formation and mental retardation, with the ultimate aim of developing better diagnosis and timely treatment for these disorders.Read moreRead less