My research focuses on understanding the molecular regulation of blood cell production and function in health and disease with the ultimate goal of discovery of new treatments for blood cell diseases including leukaemia and autoimmunity.
I am a cardiovascular scientist and interventional cardiologist using biotechnological, molecular and cell biological methods as well as in vivo and ex vivo models to address translational research questions in the fields of inflammation, thrombosis and atherosclerosis. The aim of my research is to better understand the pathogenesis of cardiovascular disease and to develop new diagnostic and therapeutic strategies that ultimately provide direct benefits to patients.
Coronary Atherosclerosis And Its Relationship With Platelet Activation
Funder
National Health and Medical Research Council
Funding Amount
$101,039.00
Summary
Blood clots are critical to the development of heart attacks, which kill many thousands of Australians annually. Platelets are cells in the blood that play an essential role in formation of blood clots, and coronary disease is associated with platelet activation. This research study will investigate the nature of platelet activation in the arteries of the human heart, its relationship to activation of inflammatory cells, and to the severity of narrowings in the arteries of the human heart.
Translational Research Program To Advance Clinical Outcomes In Acute Myeloid Leukaemia
Funder
National Health and Medical Research Council
Funding Amount
$418,192.00
Summary
Five-year survival in acute myeloid leukaemia (AML) is only 27%, placing it amongst the worst-ranked cancers for clinical outcome. Improved patient outcomes will be achieved through implementation of a Translational Research Program to support novel agent drug testing, early-phase and randomised clinical trials and a national clinical registry to audit outcomes. New insights into leukaemic stem cell function and mechanisms of drug resistance will inform the design of future clinical trials.
Identification Of A New Thrombosis Mechanism Triggered By Dying Platelets
Funder
National Health and Medical Research Council
Funding Amount
$608,742.00
Summary
A severe reduction in blood flow (ischemia) to the intestines can trigger blood clot formation (thrombosis) in multiple organs, including the lungs. We have identified a new thrombosis mechanism that is triggered by the clumping of white blood cells in the intestines, leading to widespread thrombosis in the lung. Here we will investigate the mechanisms triggering this thrombosis mechanism with the ultimate aim of identifying more effective antithrombotic approaches.