Microvascular Function And Outcome In Patients With Acute Coronary Syndromes
Funder
National Health and Medical Research Council
Funding Amount
$79,514.00
Summary
Damage to the small vessels of the heart is a hallmark of heart attacks. Furthermore, small vessel dysfunction (MVD) is associated with a worse prognosis even in the presence of an unblocked major coronary artery following a heart attack. Using novel invasive assessments, we aim to analyse the prevalence and clinical predictors of MVD, assess the impact of MVD on short and long-term outcome after heart attack and address the impact of new treatments on MVD and heart muscle recovery.
This study is testing two drugs in people having heart surgery, to see whether either can reduce serious complications such as heart attack, stroke or death. Aspirin thins the blood and can reduce these risks but it increases bleeding during surgery. Another drug can reduce bleeding, but it may counteract the benefits of aspirin. The study is being done at more than 20 hospitals in Australia and around the world.
Studying Coronary Physiology Within Human Coronary Arteries Using Computational Fluid Dynamics
Funder
National Health and Medical Research Council
Funding Amount
$383,834.00
Summary
The aim of this project is to combine the recent technological advances within the individual fields of coronary physiology, three-dimensional coronary angiography, and computational fluid dynamics to develop a novel method to calculate realistic coronary blood flow. This technique will provide a simple and clinically applicable method to measure physiological parameters such as microcirculatory resistance and shear stress within _live� human coronary arteries.
The Coronary Vascular Bed, Shear Stress, Endothelial Signalling And Myocyte Electrophysiology
Funder
National Health and Medical Research Council
Funding Amount
$133,774.00
Summary
Physiologic control muscle performance includes a little understood signal from the walls of blood vessels stimulated by pressure and flow which effect muscle function. How this signal operates is controversial. We have developed a model which enables the evaluation of such signalling where changes in flow in the circumflex coronary artery induce easily measured local changes in electrophysiology which are confined to the territory of the circumflex coronary artery and which can be compared with ....Physiologic control muscle performance includes a little understood signal from the walls of blood vessels stimulated by pressure and flow which effect muscle function. How this signal operates is controversial. We have developed a model which enables the evaluation of such signalling where changes in flow in the circumflex coronary artery induce easily measured local changes in electrophysiology which are confined to the territory of the circumflex coronary artery and which can be compared with control values from the left anterior descending coronary artery territory. We propose to use this stable model to evaluate the origin, the transmission agent and the mechanism by which it alters the action potential duration.Read moreRead less
Dissecting The Great Ophthalmic Masquerade: The Global Giant Cell Arteritis Genomics Consortium.
Funder
National Health and Medical Research Council
Funding Amount
$583,269.00
Summary
Giant cell arteritis (GCA) is the most common form of vasculitis in people over 50 years of age. If untreated it can cause catastrophic complications including blindness, though this can be prevented if treated early. Although there is clear evidence for a role of genetic factors in GCA, these have been little studied. We have established an Australian-led International consortium, with clinical, basic science and statistical expertise to thoroughly investigate this devastating disease.
Heart Failure And Its Antecedents: Pathophysiology, Prevention And Treatment
Funder
National Health and Medical Research Council
Funding Amount
$9,061,084.00
Summary
Heart failure is mainly a result of coronary artery disease. It is a major cause of disability and mortality in Australia and is projected to increase markedly over the next two decades. This program brings together clinical and basic science expertise to address aspects of the prevention and control of coronary disease and heart failure. The outcomes that will arise will provide a better understanding of the mechanisms involved in the progression from stable heart disease to failure.