Structural And Functional Studies On The Interaction Between Alpha2-Antiplasmin And Plasmin
Funder
National Health and Medical Research Council
Funding Amount
$280,400.00
Summary
Fibrinolysis is the process by which the body dissolves clots. In this proposal we aim to investigate how the fibrinolysis inhibitor alpha2-antiplasmin interacts with the clot dissolving protease enzyme plasmin. These data will be useful for developing new approaches to accelerate plasmin-mediated clot breakdown.
Heparin Induced Thrombocytopenia (HIT): Further Characterization Of Disease Mechanism Will Improve Patient Treatment
Funder
National Health and Medical Research Council
Funding Amount
$456,484.00
Summary
Thrombus formation occurs as a side effect of heparin treatment in many patients. This condition is called Heparin Induced Thrombocytopenia (HIT). The clots may be stabilised by secretions from cells called neutrophils. In this project we will study this possibility using a mouse model of HIT and will explore therapeutic approaches to inhibit clot stabilisation.
Improving The Long-term Outcomes Of The Australian And New Zealand Fontan Population
Funder
National Health and Medical Research Council
Funding Amount
$89,836.00
Summary
The Fontan procedure is the last of a series of operations offered to children born with hearts with a single pumping chamber. Without this procedure these children would die, however, with this procedure their long-term expectations are still uncertain. This study will investigate the long-term outcomes of the Australian and New Zealand Fontan population and how these outcomes can be improved.
Intravascular Leukocyte Trafficking During Thromboinflammation
Funder
National Health and Medical Research Council
Funding Amount
$668,742.00
Summary
Unblocking blood vessels to treat heart attack and stroke can unfortunately cause a paradoxical worsening of organ damage, due to increased inflammation upon blood flow restoration. We have identified a novel way in which this side-effect is regulated by the small blood clotting cells platelets, and the protein fibrin. We will investigate ways to reduce the pro-inflammatory role for platelets, and define safer clot busting treatments.
Investigating The Link Between Oxidative Stress And Biomechanical Integrin Activation In Diabetes
Funder
National Health and Medical Research Council
Funding Amount
$653,742.00
Summary
Diabetes represents a serious healthcare problem globally. A large proportion of deaths associated with diabetes can be attributed to the development of blood clots in the circulation of the heart and brain (heart attack/stroke). The blood clotting mechanism is ‘hyperactive’ in diabetes, although the reason for this is not well defined. In this proposal we will investigate a new mechanism promoting blood clots, and will investigate innovative approaches to reduce this clotting mechanism.
Autoimmune-based thrombocytopenia can be a life-threatening adverse event associated with viral load, surgery, drug therapies or the use of the anticoagulant, heparin. This grant will define mechanisms of anti-platelet antibody-dependent platelet activation and assess shedding of platelet-specific glycoprotein (GP)VI as an immediate consequence of this activation, provide a new strategy for evaluating risk of thrombosis in HIT.
A Preclinical Model Of Pig Islet Xenotransplantation As Treatment For Type 1 Diabetes
Funder
National Health and Medical Research Council
Funding Amount
$4,380,000.00
Summary
The object of this multi-disciplinary program grant is to develop a source of pig insulin secreting tissue that will be used to treat type 1 diabetic patients. At present the number of diabetic patients that would benefit from islet transplantation far outnumber any human source of this tissue. Pigs that have been genetically altered to avoid rejection and enhance survival could overcome this donor shortage problem.. It is our belief that with the appropriate genetic modification pig insulin-sec ....The object of this multi-disciplinary program grant is to develop a source of pig insulin secreting tissue that will be used to treat type 1 diabetic patients. At present the number of diabetic patients that would benefit from islet transplantation far outnumber any human source of this tissue. Pigs that have been genetically altered to avoid rejection and enhance survival could overcome this donor shortage problem.. It is our belief that with the appropriate genetic modification pig insulin-secreting tissue can avoid the aggressive rejection response that occurs with xenographs and provide normal blood glucose control without insulin. This project concentrates on the five main issues that need to be overcome before pig insulin-secreting tissue can be used in diabetics. These are: identifying the best source of insulin secreting tissue to use; adult islets, newborn or foetal islet cell clusters; overcoming the strong rejection response to pig tissue; identifying a safe and effective immunosuppressive regime; producing a new types of genetically modified pigs that will provide islets tissue that will work in humans; and demonstrating that pig islet transplantation will not pose undue infective risks for the patient or community. This truly collaborative program grant has brought together a large group of investigators with strong research records in diabetes, islet transplantation, xenotransplantation, pig transgenesis and pig genetics and includes scientists and clinicians who look after diabetic patients. Unique pig resources will be used including genetically manipulated pigs that have been shown to avoid some of the rejection mechanisms associated with transplanting pig tissue. There is a captive-bred baboon colony that provided a unique model of diabetes. A world class pig transgenesis facility has been enlisted to generate new lines of genetically altered pigs as new data is produced within the group. Finally because of the involvement of the National Pancreas Transplant Unit any proven therapeutic strategy can be brought quickly to clinical trials.Read moreRead less
Heparin-induced Thrombocytopenia And Thrombosis: Better Understanding Of Pathogenesis And Improving Diagnosis And Treatment
Funder
National Health and Medical Research Council
Funding Amount
$653,137.00
Summary
Heparin, a widely used drug, can cause an adverse effect which results in a fall of the platelet count and the development of serious thrombosis. This drug complication is mediated by an immune mechanism. This proposal aims to provide a better understanding of the disease mechanism. It also aims to develop a new test that will improve the diagnosis, and to produce a novel drug that will effectively suppress the immune reaction and improve the treatment.
Mechanisms And Therapies In Cardiovascular Disease
Funder
National Health and Medical Research Council
Funding Amount
$8,360,700.00
Summary
Cardiovascular disease (CVD) claims 1 person every 10 min in Australia and causes 1 in 3 deaths worldwide. The molecular and cellular processes underlying atherosclerosis, vascular injury and thrombosis are highly complex and not well understood. A multifaceted approach is needed to effectively address these key challenges. This Program brings together world experts in these areas to interrogate gaps in our basic understanding of CVD, and to develop novel therapies for CVD patients by exploiting ....Cardiovascular disease (CVD) claims 1 person every 10 min in Australia and causes 1 in 3 deaths worldwide. The molecular and cellular processes underlying atherosclerosis, vascular injury and thrombosis are highly complex and not well understood. A multifaceted approach is needed to effectively address these key challenges. This Program brings together world experts in these areas to interrogate gaps in our basic understanding of CVD, and to develop novel therapies for CVD patients by exploiting new knowledge through integrated research.Read moreRead less