Investigate The Role Of Platelet Von Willebrand Factor In Initiating Platelet Aggregation Under Flow
Funder
National Health and Medical Research Council
Funding Amount
$307,165.00
Summary
Platelets are small specialised blood cells that are essential for normal blood clotting and repair of damaged blood vessels following injury. We are studying the processes that enable platelets to stick to each other and to other cells to form a stable blood clot at the site of injury. The same processes, unchecked, are involved in the formation of harmful blood clots in the bloodstream that may block blood vessels in the heart or brain and result in a heart attack or stroke. Platelets stick to ....Platelets are small specialised blood cells that are essential for normal blood clotting and repair of damaged blood vessels following injury. We are studying the processes that enable platelets to stick to each other and to other cells to form a stable blood clot at the site of injury. The same processes, unchecked, are involved in the formation of harmful blood clots in the bloodstream that may block blood vessels in the heart or brain and result in a heart attack or stroke. Platelets stick to the blood vessel wall through specialised adhesive proteins. These adhesion proteins are stored within the platelet and expressed on the cell surface when the platelets stick to the blood vessel wall. In conditions such as Gray Platelet Syndrome, the platelets are unable to store adhesion receptors, resulting in impaired blood clot formation. A clearer understanding of how platelets stick to the blood vessel wall will not only increase our knowledge of blood clot formation in health and disease, but also with the potential development of new therapies for the prevention of heart disease and stroke.Read moreRead less
Novel 'Mechano-medicine' Combats Deadly Sticky Blood Clots In Diabetes
Funder
National Health and Medical Research Council
Funding Amount
$760,684.00
Summary
This project aims to elucidate a novel biomechanical mechanism that associates with mechanical force generated by dynamic blood flow and leads to enhanced blood clotting in diabetes. The outcome may likely explain the reduced efficacy of current anti-clotting drugs (i.e. Aspirin, Plavix® or Brilinta®) in individuals with diabetes, which does not take the 'force effect' into account. Moreover, it will provide an innovative therapeutic strategy to reduce the sticky blood clots of diabetes.
Investigation Into The Intervention Of Arterial Thrombosis And Atherosclerosis Using Shear Sensitive Nanoparticle Drug Delivery
Funder
National Health and Medical Research Council
Funding Amount
$462,601.00
Summary
In this project we aim to provide a targeted therapy that inhibits atherosclerosis, in-stent restenosis and thrombosis; pathologies characterized by high shear stress due to a reduction in the vessel lumen. We will apply microfluidic technology to characterize lipid nano-capsules that are tagged with antibodies against activated platelets or VCAM-1, loaded with anti-platelet or immune suppressive drugs and are prone to rupture specifically under high shear stress conditions.
Investigating A Novel Role For The Haemopoietic Growth Factor Receptor, C-Mpl, In Regulating Shear-dependent Platelet Adhesive Function
Funder
National Health and Medical Research Council
Funding Amount
$570,294.00
Summary
Platelets play a critical role in blood clot formation, with low platelet numbers leading to bleeding while excessive clot formation can cause heart attack and stroke. Platelets must ‘stick’ to injured blood vessels under blood flow (shear). We have discovered that the growth factor, c-Mpl, can regulate shear-dependent platelet sticking by controlling receptor ‘shedding’ from the cell surface. We will investigate how c-Mpl performs this new role, and examine platelet function in patients with my ....Platelets play a critical role in blood clot formation, with low platelet numbers leading to bleeding while excessive clot formation can cause heart attack and stroke. Platelets must ‘stick’ to injured blood vessels under blood flow (shear). We have discovered that the growth factor, c-Mpl, can regulate shear-dependent platelet sticking by controlling receptor ‘shedding’ from the cell surface. We will investigate how c-Mpl performs this new role, and examine platelet function in patients with myeloproliferative disease who have reduced c-Mpl.Read moreRead less