Identifying The Epigenomic Fingerprint Of Coronary Heart Disease In Chinese Adults With Type 2 Diabetes
Funder
National Health and Medical Research Council
Funding Amount
$596,663.00
Summary
Once people get diabetes, even good glucose control may be insufficient to prevent its complications. Diabetes results in molecular imprinting contributing to an increased risk of heart disease. We believe it is possible to identify this imprinted risk by a sophisticated analysis of a standard blood sample. Validating this hypothesis will lead to new biomarkers to identify individuals at increased risk of heart attacks as well as new strategies for the prevention and treatment of heart disease.
Detection And Management Of Depression In General Practice Patients With Chronic Manifestations Of Ischaemic Heart Disea
Funder
National Health and Medical Research Council
Funding Amount
$499,797.00
Summary
This research will investigate the impact of ischemic heart disease on the prevalence and severity of patients with depression. This will be done via a 12 month general practice based program of 1) systematic screening for depression 2) informing general practitioners of best-practice guidelines for management of depression in these patients, and 3) providing the treating general practitioner with patient-specific, psychiatric advice.
IDENTIFICATION OF BRAIN NEURONS INVOLVED IN THE CARDIOVASCULAR RESPONSE TO FEAR AND FLIGHT
Funder
National Health and Medical Research Council
Funding Amount
$400,247.00
Summary
The circulatory system of the body acts in concert with the respiratory system to distribute oxygenated blood to the brain and other organs and tissues of the body. Control of blood pressure and heart rate is achieved largely through the actions of the central nervous system on effector organs and tissues such as the heart and blood vessels. This control is exerted through the actions of nerves in the body which affect the rate and force of contraction of the heart and the diameter of blood vess ....The circulatory system of the body acts in concert with the respiratory system to distribute oxygenated blood to the brain and other organs and tissues of the body. Control of blood pressure and heart rate is achieved largely through the actions of the central nervous system on effector organs and tissues such as the heart and blood vessels. This control is exerted through the actions of nerves in the body which affect the rate and force of contraction of the heart and the diameter of blood vessels which restrict the flow of blood to the tissues. These nerves, in turn, are under the control of brain cells or neurons which are located in the brainstem. Blood pressure-controlling neurons, acting upon information they receive from pressure sensors in the major blood vessels in the chest cavity, can alter their activity so that blood pressure is maintained within normal limits. Our laboratory has been examining the properties of these blood pressure-controlling neurons by recording their minute electrical discharges and by studying other brain regions which are able to influence them. In this study, we will use newly-developed procedures which will allow us to identify the precise locations of these neurons in the brain, to study which neurotransmitters (chemicals released by neurons which are used to communicate with other neurons) they use, as well as to identify other regions of the brain they connect with and influence. The major significance of this work will be that new brain circuits which transmit information about the status of the cardiovascular system to other areas of the brain will be identified. Our understanding of, and the development of new treatments for, cardiovascular diseases such as high blood pressure and heart failure are critically dependent on advancing our understanding of the nervous system.Read moreRead less
Integration Of Risk Evaluation In Cardiovascular Disease Management Programs.
Funder
National Health and Medical Research Council
Funding Amount
$5,162,176.00
Summary
This study will determine the feasibility of a coordinated health care team approach to the treatment of cardiovascular disorders. It will examine a range of issues – who would most benefit from this approach, its value for money, the relative importance of health care services to consumers, and where to invest additional health funds. Built on strong collaborations between expert researchers in advanced diagnostic techniques, coordinated health care, community health care and health economics, ....This study will determine the feasibility of a coordinated health care team approach to the treatment of cardiovascular disorders. It will examine a range of issues – who would most benefit from this approach, its value for money, the relative importance of health care services to consumers, and where to invest additional health funds. Built on strong collaborations between expert researchers in advanced diagnostic techniques, coordinated health care, community health care and health economics, this provides a unique opportunity to benefit millions of Australians.Read moreRead less
Novel Approaches To The Prevention And Treatment Of Chronic Heart Disease And Its Co-morbid Complications
Funder
National Health and Medical Research Council
Funding Amount
$5,793,580.00
Summary
Cardiovascular disease (CVD) and its associated additional disorders constitute major public health problems, especially given the rapidly ageing population which is increasingly affected by obesity and diabetes. This Program will explore novel therapies for the treatment of CVD and associated diseases, particularly focussing on chronic kidney disease, translating preliminary laboratory-based findings into clinical trials and then clinical and epidemiological findings into practice and policy.
Innovative Health Programs To Reduce Inequality In Heart Disease
Funder
National Health and Medical Research Council
Funding Amount
$876,005.00
Summary
As part of his Senior NHMRC Fellowship, Prof Simon Stewart, a world-renowned health services researcher, will lead an internationally linked team of researchers from a broad range of health disciplines to undertake a program of research designed to improve the lives of those most vulnerable to heart disease and poor health outcomes. His program of research will focus on Indigenous Australians, patients with complex forms of heart disease and urban African communities in economic transition.
A Randomised Controlled Trial Of A Nurse-led Intervention For Less Chronic Heart Failure: The NIL-CHF Study
Funder
National Health and Medical Research Council
Funding Amount
$1,166,160.00
Summary
The overall aim of the unique NIL-CHF Study is to examine the benefits of applying a specialist nurse-led, home and clinic-based intervention to optimise the care of recently discharged hospital patients with heart disease. Involving 950 patients, it will explore whether more flexible and individualised care to apply the best possible medical treatments is able to PREVENT the most deadly and disabling form of heart disease (chronic heart failure - CHF) and save money in the process.
CENTRE OF RESEARCH EXCELLENCE TO REDUCE INEQUALITY IN HEART DISEASE
Funder
National Health and Medical Research Council
Funding Amount
$2,607,253.00
Summary
There is increasing recognition of a societal responsibility to provide effective and sustainable health care to the entire population and not just to selected parts. Indigenous and regional Australians are most affected by Australia's biggest killer - heart disease. In response, the CRE to Reduce Inequality in Heart Disease, is a national collaboration of researchers from a range of health disciplines. Together they aim to address this problem by developing sustainable and cost-effective health ....There is increasing recognition of a societal responsibility to provide effective and sustainable health care to the entire population and not just to selected parts. Indigenous and regional Australians are most affected by Australia's biggest killer - heart disease. In response, the CRE to Reduce Inequality in Heart Disease, is a national collaboration of researchers from a range of health disciplines. Together they aim to address this problem by developing sustainable and cost-effective health care services.Read moreRead less
Suppression Of NADPH Oxidase-derived Oxidative Stress By Anti-sense Probes And HDL In Human Vascular Endothelium
Funder
National Health and Medical Research Council
Funding Amount
$455,250.00
Summary
In Australia, coronary heart disease (CHD) causing heart attacks remains the largest cause of death, claiming a staggering 28,000 lives a year. Oxidative stress, resulting from increased production of oxygen free radicals in arteries, is an important cause of CHD, heart attacks and strokes. We seek to understand how such oxyradicals are produced in the key cells that form the lining of all arteries, known as the vascular endothelium. By using novel DNA-type molecules (known as anti-sense) develo ....In Australia, coronary heart disease (CHD) causing heart attacks remains the largest cause of death, claiming a staggering 28,000 lives a year. Oxidative stress, resulting from increased production of oxygen free radicals in arteries, is an important cause of CHD, heart attacks and strokes. We seek to understand how such oxyradicals are produced in the key cells that form the lining of all arteries, known as the vascular endothelium. By using novel DNA-type molecules (known as anti-sense) developed in our laboratory, which block a particular gene causing oxidative stress, we will determine whether this gene is responsible for the formation of oxyradicals in human and mouse cells grown in culture. In addition, we will explore whether this gene is turned on by factors known to be involved in CHD. Finally, we will also investigate whether the good cholesterol known as HDL can act to prevent oxidative stress in human cells, as we discovered it appears to do in living arteries in vivo. If we find it has the same protective effect in endothelium, we will determine how it does this, and which component proteins of the HDL particle are important. This might suggest new treatments to prevent acute events leading to heart attack and stroke, and possibly new applications where damage appears to result from acute oxidative stress, such as in the brain soon after a stroke has occurred. We also have a plan to develop antisense drugs that will target the important gene specifically in the affected endothelium. In addition, we have other specific new drugs that will block this system in arteries. Simultaneously we will be testing the role of this gene in mouse and rabbit models of artery disease, for both our types of drugs might provide valuable new therapeutic agents to target the underlying cause of CHD and not just its symptoms as current drugs do.Read moreRead less
The Central Australian Heart Protection Study: A Randomised Trial Of Nurse-Led, Family Based Secondary Prevention Of Acute Coronary Syndromes
Funder
National Health and Medical Research Council
Funding Amount
$1,923,630.00
Summary
Despite the high burden of cardiovascular diseases among Indigenous Australians, few intervention trials have sought to evaluate novel approaches to reducing differential outcomes in this vulnerable group. The Central Australian Heart Protection Study seeks to test the effectiveness of a nurse-led, family based education and assessment program in reducing the incidence of poor outcomes in indigenous and non-indigenous patient’s following an Acute Coronary Syndrome (ACS).