Platelet And Endothelial Function In Atrial Fibrillation
Funder
National Health and Medical Research Council
Funding Amount
$105,825.00
Summary
Atrial fibrillation is the most common heart rhythm disturbance in the adult population and leads to substantial increased death and disability from stroke. In this research scheme, we will study the contribution of platelet (clot forming cells) and endothelial (lining of blood vessels) dysfunction in atrial fibrillation. The successful outcome of this project will lead to a better understanding of the underlying mechanisms of clot formation and may lead to a better target for future drugs.
Influence Of Flavonoid Structure And Function On Cardiovascular Protection
Funder
National Health and Medical Research Council
Funding Amount
$571,447.00
Summary
The proposed research will further explore the hypothesis that dietary flavonoids can protect against cardiovascular disease. The importance of flavonoid structure for bioactivity needs further study. In addition, metabolic changes to flavonoid structure could have a profound effect on their bioactivity. Therefore, our overall aim is to investigate the effects of individual flavonoids and their metabolites on bioactivity relevant to cardiovascular disease.
Atherosclerosis: Lipoproteins, Cell Biology And Vascular Physiology
Funder
National Health and Medical Research Council
Funding Amount
$10,461,682.00
Summary
The world is confronting a major new epidemic of premature heart disease that is being driven by a global increase in obesity. There are several factors that contribute to the increased risk of heart disease in overweight and obese people. One is a low blood level of the “good” HDL cholesterol that normally protects against heart disease. Another relates to a decreased ability to remove cholesterol from the walls of arteries where it builds up to cause heart disease. A third is the fact that obe ....The world is confronting a major new epidemic of premature heart disease that is being driven by a global increase in obesity. There are several factors that contribute to the increased risk of heart disease in overweight and obese people. One is a low blood level of the “good” HDL cholesterol that normally protects against heart disease. Another relates to a decreased ability to remove cholesterol from the walls of arteries where it builds up to cause heart disease. A third is the fact that obesity is associated with a state of chronic inflammation of the blood vessels. This inflammation not only accelerates the development of heart disease but also makes people who have cholesterol accumulated in their arteries more likely to actually have a heart attack. And a fourth is the fact that the lining of blood vessels does not function normally in overweight and obese people. This loss of normal function is a very early sign of future heart disease. These factors are closely inter-related, with the “good” HDL playing a central role in removing cholesterol from arteries, inhibiting arterial inflammation and promoting normal function and repair of the lining of blood vessels. HDL is complex, consisting of a mixture of several subpopulations of particles that vary in shape, size and composition. Furthermore, these HDL subpopulations are continually remodelled as they circulate in blood in reactions promoted by a number of blood factors that change their size and composition. A major component of the research to be conducted in this program relates to understanding how the HDL subpopulations in human blood are regulated and how they protect against heart disease. The applicants have already made major contributions to understanding the functions of the “good” HDLs, how they take cholesterol out of cells in the artery wall, how they inhibit inflammation of the arteries and how they improve the function of the artery lining. We propose to extend these studies to establish how these protective functions can be enhanced, to find out which of the HDL subpopulations are most protective, and to identify how to increase the most protective HDLs in people at risk of heart disease.Read moreRead less
Vascular Effects Of Exercise Training And Lipid-lowering Therapy At Rest And During Exercise In Hypercholesterolaemia
Funder
National Health and Medical Research Council
Funding Amount
$241,650.00
Summary
The health of the cells which line blood vessels, endothelial cells, is now known to be important in maintaining normal function of the circulation. In patients with elevated blood cholesterol concentration, the function of these cells is abnormal and this is considered to contribute importantly to the blood vessel dysfunction and cardiovascular disease seen in this condition. We have recently demonstrated that drug therapy aimed at decreasing cholesterol concentration in the blood can significa ....The health of the cells which line blood vessels, endothelial cells, is now known to be important in maintaining normal function of the circulation. In patients with elevated blood cholesterol concentration, the function of these cells is abnormal and this is considered to contribute importantly to the blood vessel dysfunction and cardiovascular disease seen in this condition. We have recently demonstrated that drug therapy aimed at decreasing cholesterol concentration in the blood can significantly improve blood vessel function. In other studies we have demonstrated that exercise training improves blood vessel function. The purpose of this research is to determine whether high blood cholesterol impairs exercise capacity by limiting blood flow to exercising muscle. It is also our goal to determine whether exercise training can produce benefit additional to that resulting from lowering cholesterol in those with initially high cholesterol. Blood vessel function will be studied at rest, in response to pharmacological stimulation and during exercise. Vascular function in the forearm will be assessed using synchronised ultrasound (high frequency sound, sonar) and Doppler measures which assess the size of, and flow in, the large artery near the elbow crease. During measurements, procedures are undertaken to alter flow in the arm blood vessels, some depending upon functional ability of the endothelial cells and some independent of those cells. In addition to assessment of blood vessel function, measurements of exercise tolerance will be taken before and after each intervention. By examining the effects of lipid-lowering and exercise training on rest and exercise blood flow responses, this research will help determine the best approach to improving blood vessel function and cardiovascular fitness in patients with high cholesterol.Read moreRead less
Microparticles Are Pathogenic Elements In The Pathophysiology Of Cerebral Malaria
Funder
National Health and Medical Research Council
Funding Amount
$605,205.00
Summary
Cerebral malaria (CM) is still a world health problem. We aim to better understand its mechanisms by deciphering the role of small blood elements called microparticles (MP). We discovered elevated numbers of MP in CM patients and demonstrated that preventing MP overproduction in mice protects against this fatal disease. Our research will investigate the mechanisms of action and the fate of MP in the blood vessels during CM and allow us to identify strategies for patientÍs treatment and care.