Inflammatory skin disorders, such as psoriasis and dermatitis, are responsible for a large burden of human disease and affect people across alldemographics. Knockout (KO) of TNF signalling members in mice is known to induce skin inflammation. This project proposes to use these genetic mouse models to investigate how and why disruption of particular TNF superfamily members leads to disease and potentially identify new targets for treatment.
Using mouse genetics to understand skin development and cell biology. During embryonic development the skin forms a protective barrier which permits life outside the womb and provides a window into the biology of cells. This project aims to use the skin to identify and characterise genes necessary for embryonic development and maintenance, the development of diseases and to explore their broader roles in other organs.
Predictors And Consequences Of Allergies That Impact On Children Getting A Healthy Start To Life:a Prospective Study
Funder
National Health and Medical Research Council
Funding Amount
$893,559.00
Summary
Allergic diseases prevent Australian children getting a healthy start to life by causing long term illnesses. This group of diseases includes asthma, hay fever, eczema and food allergies. Half of all Australian children are born into families with a history of these conditions and these children are at increased risk. Some of these children develop allergies while the others do not. It is also known that allergic conditions change over time, but we have no information on causes of these changes. ....Allergic diseases prevent Australian children getting a healthy start to life by causing long term illnesses. This group of diseases includes asthma, hay fever, eczema and food allergies. Half of all Australian children are born into families with a history of these conditions and these children are at increased risk. Some of these children develop allergies while the others do not. It is also known that allergic conditions change over time, but we have no information on causes of these changes. For example some infants with eczema continue to have eczema or develop hay fever and asthma, while others do not. The aim of this study is to determine what factors cause allergies and what factors influence these changes. This will provide evidence to guide health policy and clinical practice. Looking at the different conditions in family members over time is a good way to answer these types of questions, because parents and siblings share similar exposures, but not all the same genes. This helps to disentangle the effects of the environment and genes. The Melbourne Atopic Cohort Study (MACS) is amongst the world�s major studies on the development of allergies. MACS commenced in 1991-94 by recruiting 620 babies prior to birth. Only infants born into families with a history of allergic disease were included. MACS is unique because all family members and the home environment were assessed at the time of birth of the child. These children have been followed regularly over the first ten years of their life. The MACS now provides a unique opportunity to conduct a family study that can examine genes, childhood environment and individual risk factors for allergies. This will also allow exploration of the impact of allergies on families and the health care system, and how we can reduce that impact. Such information will provide evidence to guide health care policy and clinical practice. Also, the current study will provide a platform for future studies to investigate the progression of allergies in this family cohort. This will be the world's only longitudinal family follow-up of allergies that spans all of childhood. It will assist in reducing the impact of these common conditions, and the findings will be original and significant not only in Australia but also internationally.Read moreRead less
Molecular Basis For The Emergence Of Community Acquired Staphylococcus Aureus
Funder
National Health and Medical Research Council
Funding Amount
$427,518.00
Summary
Golden Staph is a major problem in our hospitals but serious Golden Staph infections are increasingly common in the community, among otherwise healthy people who have had no contact with hospitals. This project will find out how Golden Staph is evolving to become more likely to cause disease in the community. This knowledge can then be used to design new strategies for early detection, prevention and treatment.
Multiphoton microscopy through tissue turbid media. The aim of this proposal is to conduct the collaborative project on multi-photon microscopic imaging through biological tissue, which has been recently initiated between Swinburne University of Technology (SUT) and Massachusetts Institute of Technology (MIT). It will integrate the special skills, two-photon fluorescence endoscopy and second-harmonic coherence tomography, investigated in the respective collaborating institutes, to develop a nove ....Multiphoton microscopy through tissue turbid media. The aim of this proposal is to conduct the collaborative project on multi-photon microscopic imaging through biological tissue, which has been recently initiated between Swinburne University of Technology (SUT) and Massachusetts Institute of Technology (MIT). It will integrate the special skills, two-photon fluorescence endoscopy and second-harmonic coherence tomography, investigated in the respective collaborating institutes, to develop a novel method for detecting/imaging cancer cells that are located at 1 mm below tissue surfaces, while they are still in the early stage to be cured. Consequently, a diagnostic method for early cancer detection particularly through skin tissue becomes possible.Read moreRead less
A knockout approach to identifying genes involved in epidermal development and homeostasis. These studies will identify new genes which play a role in the development or maintenance of the skin, some of which may subsequently be shown to play a role in disease. The project capitalises on an investment of tens of millions of dollars by the Wellcome Trust in generating a significant cohort of knockout mice. Our involvement in this international initiative will ensure Australia's participation in ....A knockout approach to identifying genes involved in epidermal development and homeostasis. These studies will identify new genes which play a role in the development or maintenance of the skin, some of which may subsequently be shown to play a role in disease. The project capitalises on an investment of tens of millions of dollars by the Wellcome Trust in generating a significant cohort of knockout mice. Our involvement in this international initiative will ensure Australia's participation in a project at the forefront of mouse genetics, using cutting edge infrastructure and technologies to provide insights into the complement of genes involved in skin biology. Models of interest will be repatriated to Australia for further study capitalising on existing infrastructure provided through the NCRIS funding program. Read moreRead less
Understanding the biology of reactive oxygen species. This project will utilise forefront technologies to identify and characterise fundamental biological processes involving toxic free radicals that cause infectious disease and cancer. The approach synergises with researchers across disciplines and universities to ultimately identify future drugs to improve and maintain health.
Circuit Class Therapy For Rehabilitation Clients. A Pragmatic Randomized Controlled Trial Of Therapy Intensity (CIRCIT).
Funder
National Health and Medical Research Council
Funding Amount
$526,361.00
Summary
Loss of independence is common after stroke, and may lead to reduced quality of life and admission to nursing home care. We will investigate if an increased amount of rehabilitation following stroke leads to improved mobility. Two ways of delivering more intense rehabilitation will be compared with usual care to find out which leads to improved physical mobility, and how they compare economically. This will allow health service providers to optimise services and will benefit people with stroke.
Pathogen sensing in systemic inflammatory disease. The initiation, amplification and quenching of an immune response is a carefully orchestrated process that eliminates invading pathogens while minimising collateral damage to host tissues. This research focuses on proteins that restrict immune responses to prevent inflammatory diseases such as rheumatoid arthritis, psoriasis and inflammatory bowel disease. This work will also explore the role of a potassium channel that protects the host from or ....Pathogen sensing in systemic inflammatory disease. The initiation, amplification and quenching of an immune response is a carefully orchestrated process that eliminates invading pathogens while minimising collateral damage to host tissues. This research focuses on proteins that restrict immune responses to prevent inflammatory diseases such as rheumatoid arthritis, psoriasis and inflammatory bowel disease. This work will also explore the role of a potassium channel that protects the host from organ failure during an infection, by coupling the energy requirements of mounting an immune response, and organ function. This may have important implications for the management of sepsis, a systemic immune response associated with infection and the leading cause of death in critically ill patients.Read moreRead less
Production and testing of novel bioactive honeys and honey-based cosmetic formulations. The purpose of this project is to evaluate the entire spectrum of plant bioactive compounds that are transferred to the honey and develop novel bioactive honeys with enhanced antimicrobial, antioxidant and anti-inflammatory properties. This project will also develop new honey-based cosmetic products like creams, gels and foams.