Investigation Of The Role Of The GPIb/V/IX-filamin-1 Interaction In Regulating Platelet Function In Vivo
Funder
National Health and Medical Research Council
Funding Amount
$267,750.00
Summary
Platelets play an essential role in blood clotting and blod vessel repair. Upon injury to a blood vessel, platelets rapidly adhere to the area of damage where they undergo dramatic changes in their shape and internal structure that facilitates spreading over the area of injury and subsequent formation of a stable blood clot. Our research studies are aimed at understanding more closely the factors that regulate the adhesiveness of platelets, since this is an important determinant not only in norm ....Platelets play an essential role in blood clotting and blod vessel repair. Upon injury to a blood vessel, platelets rapidly adhere to the area of damage where they undergo dramatic changes in their shape and internal structure that facilitates spreading over the area of injury and subsequent formation of a stable blood clot. Our research studies are aimed at understanding more closely the factors that regulate the adhesiveness of platelets, since this is an important determinant not only in normal blood clot formation but also in the development of harmful blood clots (thrombosis) associated with the development of diseases such as heart attack and stroke. Our particular focus is on the interaction between adhesion receptors on the surface of the platelet and components of the intracellular platelet structure referred to as the cytoskeleton and how this interaction might regulate the reactivity of platelets and their ability to adhere to blood vessels. We believe this may be an important mechanism that regulates platelet adhesion and notmal blood clotting.Read moreRead less
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.
Regulation Of Receptors That Control Platelet Function Under Shear Stress
Funder
National Health and Medical Research Council
Funding Amount
$507,273.00
Summary
Specialized human blood cells that control blood loss and clotting (platelets) are currently difficult to test in the clinical laboratory, meaning patients are at risk of excessive bleeding or serious clot formation during disease or treatment. The aim of this proposal is to use our new reagents and assays to develop more reliable methods for evaluating relative bleeding or clotting risk in individuals.
Identification Of A Novel Adhesion Mechanism Regulating Platelet-endothelial Interactions.
Funder
National Health and Medical Research Council
Funding Amount
$501,691.00
Summary
Platelets are important blood cells, stopping bleeding in the event of blood vessel injury. However, platelets can also interact with the blood vessel lining (endothelium) to regulate and in some cases promote inflammation. We have identified a new structure platelets use to stick to endothelium, which under disease states (enhanced oxidative stress), can promote inflammation. We will investigate how tractopods form, and examine their role in the setting of elevated oxidative stress and inflamma ....Platelets are important blood cells, stopping bleeding in the event of blood vessel injury. However, platelets can also interact with the blood vessel lining (endothelium) to regulate and in some cases promote inflammation. We have identified a new structure platelets use to stick to endothelium, which under disease states (enhanced oxidative stress), can promote inflammation. We will investigate how tractopods form, and examine their role in the setting of elevated oxidative stress and inflammatory disease.Read moreRead less
Genetic Polymorphisms Associated With Clinical And Dermoscopic Naevus Signature Patterns
Funder
National Health and Medical Research Council
Funding Amount
$842,841.00
Summary
Melanoma is a form of skin cancer that arises from the cells that produce pigment and is a major public health issue in Australia. We will examine the relationship between the form, structure and colour of existing types of moles and their subsequent risk of developing into melanoma. This study will combine dermoscopy, a non-invasive examination technique, with DNA tests of the genes that determine number of naevi, skin, hair and eye colour, aiding in the early prediction and diagnosis of skin c ....Melanoma is a form of skin cancer that arises from the cells that produce pigment and is a major public health issue in Australia. We will examine the relationship between the form, structure and colour of existing types of moles and their subsequent risk of developing into melanoma. This study will combine dermoscopy, a non-invasive examination technique, with DNA tests of the genes that determine number of naevi, skin, hair and eye colour, aiding in the early prediction and diagnosis of skin cancer.Read moreRead less
Discrete Simulation Of Powder Dispersion In Pharmaceutical Aerosol Inhalers
Funder
National Health and Medical Research Council
Funding Amount
$35,085.00
Summary
This project seeks to develop fundamental understanding of the dispersion mechanisms of powders as aerosol for inhalation drug delivery. It couples computational simulations using computational fluid dynamics and discrete element method with experimental dispersion analysis. Successful development of this research will lead to a comprehensive understanding of factors controlling inhaler performance and thus maximizes the therapeutic benefits to the patients.