Function Of The Flightless Protein In Wound Repair And Scar Formation In Skin
Funder
National Health and Medical Research Council
Funding Amount
$472,750.00
Summary
Scarring is the inevitable outcome of wound repair and can cover a spectrum of conditions, from normal fine lines to unsightly, restrictive and deforming scars. Each year in the world over 100 million patients acquire scars, primarily from surgical procedures. Many of these scars cause considerable problems. Over 4 million burn scars occur every year, 70% of them in children. Poor wound healing is a major clinical problem and can result in loss of movement and deformity. These are especially imp ....Scarring is the inevitable outcome of wound repair and can cover a spectrum of conditions, from normal fine lines to unsightly, restrictive and deforming scars. Each year in the world over 100 million patients acquire scars, primarily from surgical procedures. Many of these scars cause considerable problems. Over 4 million burn scars occur every year, 70% of them in children. Poor wound healing is a major clinical problem and can result in loss of movement and deformity. These are especially important considerations for children, where their growth places extra demands on healing wounds and grafts, necessitating regular surgical adjustment. Scarring is an area of largely unmet medical need and development of new treatment strategies would have significant impact on public health. Changes in cell adhesion, shape and movement are important processes in wound repair. A framework of filaments, much like guy-ropes that support a tent, help coordinate these events. Remodelling of these filaments, shortening or extending them and making new connections, allows cells to change shape and respond to stimuli. This is a crucial event in repairing wounds and the proteins that perform this are fundamentally important to wound repair. We have discovered a protein in skin, known as Flightless, that is involved in this filament remodelling process. The goal of this project is to determine what Flightless does in wound repair. By changing the amount of this protein and comparing its effect in non-scarring and scarring animal wound healing models we can gain insight into its role in wound healing and scar formation in humans. The development of new animal models in this research and the discovery of the role of Flightless in wound repair will provide exciting new opportunities to improve wound repair and reduce scarring, with significant impact on public health.Read moreRead less
Activated Protein C Utilises Protease Activated Receptors And Epidermal Growth Factor Receptor To Heal Wounds
Funder
National Health and Medical Research Council
Funding Amount
$436,882.00
Summary
Chronic leg ulcers are a major burden to the individual sufferer and to the health system. We have discovered that activated protein C (APC) potently stimulates wound healing in the laboratory and now have exciting positive results from a small pilot clinical trial showing that applying APC solution to leg ulcers also helps healing in patients. This study plans to discover how APC works at the molecular level.
Cementogenesis And New Periodontal Attachment Formation Using Cell Sheets
Funder
National Health and Medical Research Council
Funding Amount
$483,787.00
Summary
Periodontitis, a chronic inflammatory disease, affects 30-40% of the population and is a leading cause of soft and hard tissue destruction around teeth and tooth loss. Current treatment does not regenerate lost tissues resulting in inferior aesthetics and function. By using oral tissue engineered in the laboratory capable of supporting the growth and differentiation of cells necessary to achieve regeneration, the original structure and function of previously destroyed tissue may be restored.
The Role Of SKAM And Sphingosine Kinase In Wound Healing
Funder
National Health and Medical Research Council
Funding Amount
$281,340.00
Summary
Many aspects of wound healing are poorly understood. We have identified a novel cellular pathway that appears critically involved in controlling wound contraction. This project aims to characterise this cellular pathway to understand the exact mechanisms whereby it controls this critical aspect of wound healing. With this information we will develop topical therapeutics to aid the wound healing process.
The Impact Of Fluid Mechanics On Wound Healing After Glaucoma Surgery- An Engineering-based Approach
Funder
National Health and Medical Research Council
Funding Amount
$280,400.00
Summary
Excess scarring after glaucoma surgery is the major reason why surgery fails.This study will investigate how biomechanical forces in the eye influence wound healing and provide a new approach to regulating scar formation. This will provide key information for developing surgical techniques that improve outcome and prevent vision loss. The annual cost to Australia from vision loss due to glaucoma will double to $4.3 billion by 2025 unless better treatments are developed (Access Economics).
Evaluation A Novel Vitronectin:growth Factor Complex For Treatment Of Chronic Venous Leg Ulcers
Funder
National Health and Medical Research Council
Funding Amount
$854,975.00
Summary
Chronic leg ulcers in the elderly are an important problem, diminshing quality of life and costing at least A$1 billion per year. New treatments are urgently required. This study will test a new topical growth factor therapy designed to have greatly improved activity in wounds.The project is a collaboration between scientists and doctors at the Queensland Univeristy of Technology and the University of Western Australia. Many wound types may ultimately benefit from this treatment.
Non-invasive Electrical Nerve Stimulation To Improve Healing Of Chronic Venous Leg Ulcers
Funder
National Health and Medical Research Council
Funding Amount
$206,210.00
Summary
Chronic venous leg ulcers are common in the elderly. They often last for many months or years, causing much suffering and expense (currently around $600,000,000 per year in Australia). As more and more Australians live into advanced age, more and more people will be troubled by leg ulcers, particularly as the likelihood of having a leg ulcer increases markedly in the very old. We have developed a painless, cheap treatment that improves wound healing. The treatment consists of electrical stimulat ....Chronic venous leg ulcers are common in the elderly. They often last for many months or years, causing much suffering and expense (currently around $600,000,000 per year in Australia). As more and more Australians live into advanced age, more and more people will be troubled by leg ulcers, particularly as the likelihood of having a leg ulcer increases markedly in the very old. We have developed a painless, cheap treatment that improves wound healing. The treatment consists of electrical stimulation of nerves that supply the wound. Low frequency current is passed through the skin from small battery powered stimulators. We have tested this technique in laboratory animals and in just a few older people with diabetes and have shown it is remarkably effective. We now plan to test this technique properly in a large study in older adults. If successful, the electrical stimulation could result in healing of wounds in relatively few weeks that otherwise would not heal for many months. Much suffering and expense would be avoided. As people age, nerve function deteriotes. Another part of the project will explore whether electrical nerve stimulation can improve damaged nerves themselves. This will provide interesting scientific insight about nerve repair and could lead to treatments for peripheral neuropathy that occurs in diabetes and other medical conditions. Australia needs to act on this now because the number of people aged over 65 will increase from around 2.3 million at present to over 6 million in the next half century. The increase in those over 85 will be even more marked with numbers increasing four fold to over one million people. Many of these people will experience severe impairment of their quality of life from leg ulcers that could be avoided, or at least minimized if a successful treatment is developed and made available to them. Similarly, much unnecessary expense could be avoided.Read moreRead less
Defects In Epidermal Morphogenesis In Grainyhead-like Gene Deficient Mice
Funder
National Health and Medical Research Council
Funding Amount
$579,138.00
Summary
The cells of the skin play an essential role in the development of the mammalian embryo. They are critical for forming a protective barrier against infection and external toxins, for preventing excess fluid loss, for repair of defects and wounds , and for the generation of hair. Our laboratory has identified a family of genes that are critical for these processes. The aim of this study is to determine the relationship between these genes to further our understanding of the skin and its functions
Microenvironmental Regulation Of The Tissue Regenerative Capacity Of Keratinocyte Stem Cells And Their Progeny.
Funder
National Health and Medical Research Council
Funding Amount
$391,762.00
Summary
The protective outer layers of the skin known as the epidermis belongs to a group of tissues in the body that are turning over at a rapid rate. The majority ofepidermal cells have a lifespan of just 2-3 weeks, and are shed as mature cells from the skin's surface. These cells are replaced by continuous cell regeneration which is dependent on growth factors and adhesive molecules (and other signals). It has recently come to light that the connective tissue of the skin i.e. the dermis, which lies d ....The protective outer layers of the skin known as the epidermis belongs to a group of tissues in the body that are turning over at a rapid rate. The majority ofepidermal cells have a lifespan of just 2-3 weeks, and are shed as mature cells from the skin's surface. These cells are replaced by continuous cell regeneration which is dependent on growth factors and adhesive molecules (and other signals). It has recently come to light that the connective tissue of the skin i.e. the dermis, which lies directly below the epidermal cells has a critical role in providing some of these factors required for their growth and maturation. Indeed, it is becoming increasingly clear that the epidermal and dermal cells co-operate to regulate epidermal proliferation and maturation. Recent work from our laboratory has shown that a newly recognised adhesive protein laminin-10 may be produced as the result of such co-operation and that it stimulates the growth of both normal and tumour epidermal cells. We have also recently identified an interesting subset of dermal cells that may have a role in promoting the growth of the epidermal cells. Thus, the aims of the proposed stuides are to investigate the role of laminin-10 and this specific dermal cell subset in epidermal proliferation and maturation. These studies may also provide an insight into the role of these factors in skin cancers.Read moreRead less