Changing Heat: Direct Impacts Of Temperature On Health And Productivity - Current Risks And Climate Change Projections
Funder
National Health and Medical Research Council
Funding Amount
$277,915.00
Summary
We know that heatwaves kill people - some 50,000 died in the 2003 European heatwave - but little is known of the details. This project will discover those details, in three important dimensions: WHO is at risk, and where do they live; HOW are people at risk, e.g. from kidney failure; and just WHAT is it about heat that is most dangerous? We will then build mathematical models of the future risks, and explore what public health measures will best protect Australians in a warming climate.
Pharmacological Preconditioning And Sodium/hydrogen Exchange Inhibition To Optimise Preservation Of The Donor Pig Heart
Funder
National Health and Medical Research Council
Funding Amount
$242,545.00
Summary
Heart transplantation has become established as an extremely beneficial treatment for patients with end-stage heart failure, however its success is limited by the restricted availability of donor hearts. Many hearts that could be considered for heart transplantation cannot be used because of damage that can occur to potential donor hearts after the death of the donor. This damage is caused in part by deterioration in heart function after death and in part by the process of removal and cold stora ....Heart transplantation has become established as an extremely beneficial treatment for patients with end-stage heart failure, however its success is limited by the restricted availability of donor hearts. Many hearts that could be considered for heart transplantation cannot be used because of damage that can occur to potential donor hearts after the death of the donor. This damage is caused in part by deterioration in heart function after death and in part by the process of removal and cold storage that occur prior to transplantation of the heart. This study will examine two new methods of optimising the quality and preservation of the donor heart for transplantation. The treatments to be investigated in this study are aimed at preventing damage to the donor heart after death and during the process of transplantation. The studies will be conducted in a pig model of heart transplantation that we have developed in our laboratory. The treatments will be administered to the donor pig after induction of brain death and also to the recipient during transplantation of the heart. As the model closely mimics all aspects of human heart transplantation, any positive findings that stem from these studies will be directly applicable to human transplantation. Improved preservation of the donor heart will make the operation safer and will potentially increase the number of hearts that can be used for transplantation. As many donors provide multiple organs for transplantation eg kidneys, liver, lungs and pancreas, the treatments that we are investigating have the potential to improve the recovery of all these organs after transplantation.Read moreRead less
Towards A New Normokalemic Arrest Paradigm For Orthotopic Heart Transplantation
Funder
National Health and Medical Research Council
Funding Amount
$489,634.00
Summary
Innovations from Nature to Heart Transplantation:a Real Heart Stopper Heart preservation is limited to 4-6 hours of cold-ischaemic storage (0 to 4 C). The risk of post-transplant death doubles if the donor heart is stored from 1 to 5 hours, and triples with 7 hrs storage times. We have developed a new preservation solution borrowing from natural hibernators that will permit organs to be safely stored for up to 15 hours, and offering new opportunities to organ donors and recipients worldwide.
CHARACTERISATION OF NOVEL PICORNAVIRUS-LIKE VIRUSES IDENTIFIED FROM PATIENTS WITH ACUTE RESPIRATORY INFECTIONS.
Funder
National Health and Medical Research Council
Funding Amount
$366,998.00
Summary
The common cold and serious chest colds are usually due to viral infections, and mostly occur in children. Unfortunately we can only be certain of the virus causing this illness in as little as 15% of cases. We intend to address this lack of research by examining, in detail, a new virus we recently identified in a child with serious respiratory illness that required admission to hospital. Testing by our laboratory suggests that the new virus is related to picornaviruses (which cause some common ....The common cold and serious chest colds are usually due to viral infections, and mostly occur in children. Unfortunately we can only be certain of the virus causing this illness in as little as 15% of cases. We intend to address this lack of research by examining, in detail, a new virus we recently identified in a child with serious respiratory illness that required admission to hospital. Testing by our laboratory suggests that the new virus is related to picornaviruses (which cause some common colds) but seems to be present in children with far more serious illness. Our study plans to more completely identify the new picornavirus-like virus (PLV) using the tools of molecular biology and the expertise of a senior team of Australian scientists and clinicians who have recently made several virus discoveries in Australia, demonstrating that Australian virus research is capable of achieving highly competitive results that benefit our hospitals and especially their young patients. Our studies will develop extremely sensitive tests which rely on the detection of very small amounts of the viral genome. We can use these tests to determine what the whole virus looks like, when it might occur during the year and whether the PLV are found worldwide. Our studies will also produce viral proteins in the laboratory and use these to make new tests for stored blood samples. If a blood sample comes from a patient who has previously been infected by PLV, their blood will contain specific antibodies which we will then be able to detect. We also intend to determine whether some strains of PLV are more or less likely to cause serious illness than others. Improved understanding of these and other viruses minimises the chance of illness spreading within a hospital, helps scientists to decide against which viruses to design vaccines and drugs and aids medical doctors to better identify what once went undiagnosed.Read moreRead less
Regulation Of Adult Colonic Crypt Homeostasis And Activation Of Colon Cancer Metastasis Genes By C-Myb
Funder
National Health and Medical Research Council
Funding Amount
$666,116.00
Summary
Regulation of normal colon biology and activation of genes involved colon cancer The c-myb gene is essential for the normal biology of the blood system and the colon. This gene is involved in regulating the balance between the production of new cells and their timely removal once they have completed their assigned tasks. There is a large body of evidence that supports the role of c-myb in the regulation of the blood system. We believe that the rules that govern the production of the huge number ....Regulation of normal colon biology and activation of genes involved colon cancer The c-myb gene is essential for the normal biology of the blood system and the colon. This gene is involved in regulating the balance between the production of new cells and their timely removal once they have completed their assigned tasks. There is a large body of evidence that supports the role of c-myb in the regulation of the blood system. We believe that the rules that govern the production of the huge number of cells needed to have a healthy blood system are similar if not identical to the rules used by the colon. This is because the colon also produces a massive number of cells each with special tasks and a defined life span of a few days. It is this rapid expansion of cell numbers and the programmed short life span of cells that necessitates multiple controls and very tight regulation. Furthermore if this process is hijacked by genetic changes that undermine these controls then there are numerous opportunities to initiate and potentiate malignant change or cancer. This project examines the role of the same genes in two contexts. Firstly when the genes are expressed at normal, highly regulated levels associated with the normal biology of the colon. The second context is when these genes are permitted to be over-expressed and thus drive processes for longer or in inappropriate situations leading to malignant growth.Read moreRead less