Development Of Quantitative Tools For Assessment Of Regional Cardiac Function By Echocardiography
Funder
National Health and Medical Research Council
Funding Amount
$209,430.00
Summary
The application of ultrasound imaging to the assessment of cardiac function (echocardiography) is an invaluable tool for the assessment of patients with known or suspected cardiac problems. The assessment of contraction in each region of the heart is probably the most important of the reasons for doing this test, as regional function is disturbed in patients with coronary artery disease, which is one of the most common causes of death in Australia. The problem is that this analysis is currently ....The application of ultrasound imaging to the assessment of cardiac function (echocardiography) is an invaluable tool for the assessment of patients with known or suspected cardiac problems. The assessment of contraction in each region of the heart is probably the most important of the reasons for doing this test, as regional function is disturbed in patients with coronary artery disease, which is one of the most common causes of death in Australia. The problem is that this analysis is currently completely subjective, and the reliability of the tool is based upon the availability of an experienced observer. This is particularly a problem in rural Australia, as most specialists with expertise in this modality work in the capital cities, and especially a problem in Queensland, where fewer than half of the population live in the capital. The cardiac imaging group at the University of Queensland have been working in collaboration with GE-Vingmed Ultrasound to develop a quantitative technique for the assessment of regional cardiac function since 1997. This collaboration has been the source of a number of published papers and presentations at international meetings. Our group is considered to be a world leader in the field and our industry partner is clearly the most focused of its competitors in addressing this problem. This submission seeks to address several remaining problems. The data thus far addressed function during stress, when the condition of most patients is similar. Tissue velocities are more variable at rest, and a more sophisticated approach is required to accurately measure the lower velocities in the resting state. This research plan seeks support for the development of a new, high frame-rate acquisition that would facilitate the examination of velocities relative to each other, so that translational motion of the heart does not influence the reading. This new method would then be validated against other techniques for assessing function and disease.Read moreRead less
TARGETING ROS-INDUCED DAMAGE RESCUES THE DIABETIC HEART
Funder
National Health and Medical Research Council
Funding Amount
$487,669.00
Summary
Over 1 million Australians have diabetes. Many of these patients die from cardiovascular disease. We have identified free radicals as a major cause of decreased pumping function and impaired recovery from each heartbeat in the diabetic heart. Stronger antioxidant approaches and-or activation of protective protein pathways is a more effective treatment for reversing impaired function in the diabetic heart, preventing or delaying heart failure in patients with diabetes.
Importance Of The Transmural Distribution Of Viable Myocardium To Outcome Of Patients After Revascularization
Funder
National Health and Medical Research Council
Funding Amount
$268,800.00
Summary
After a heart attack, up to 50% of tissue showing reduced function can recover if blood supply is returned to normal with bypass surgery or balloon angioplasty. Because these procedures may be risky in cardiac patients, the investigators have used various imaging approaches including radionuclide and ultrasound techniques to predict regions where function will recover after intervention. The results of these tests may be discordant because they assess separate attributes of cardiac muscle, and s ....After a heart attack, up to 50% of tissue showing reduced function can recover if blood supply is returned to normal with bypass surgery or balloon angioplasty. Because these procedures may be risky in cardiac patients, the investigators have used various imaging approaches including radionuclide and ultrasound techniques to predict regions where function will recover after intervention. The results of these tests may be discordant because they assess separate attributes of cardiac muscle, and selection of patients for intervention on the basis of recovery of regional function ignores some other aspects that may be important. These include avoidance of heart enlargement, improvement of exercise capacity, and avoidance of heart rhythm disturbances and even other heart attacks. In this study, the investigators seek to define the importance of the proportion and site of live (viable) myocardium to the parameters listed above. A new magnetic resonance technique will be used to identify whether radionuclide and ultrasound techniques assess different parts of the heart wall. The relative importance of these sites will be identified by comparing the outcome of patients who have live tissue in the inner half, compared with the outer half of the heart wall. This study will involve 180 patients who will undergo testing with magnetic resonance and radionuclide imaging. A subgroup will undergo dobutamine echocardiography. Their responses over follow-up will be assessed by accurate evaluation of heart size, exercise response, heart rhythm abnormalities and clinical events.Read moreRead less
Structural And Functional Consequences Of Left Ventricular Hypertrophy Regression.
Funder
National Health and Medical Research Council
Funding Amount
$293,036.00
Summary
Left ventricular hypertrophy (LVH) is a thickening of the heart muscle walls that occurs in a variety of cardiovascular diseases, including high blood pressure, coronary artery disease, cardiac valve disorders and heart dilatation. The presence of LVH increases the risk of developing heart attacks, heart failure and death. Treatment of these disorders is a major component of our escalating health-care costs. Consequently, reversal of LVH may have significant benefits to individual patients and s ....Left ventricular hypertrophy (LVH) is a thickening of the heart muscle walls that occurs in a variety of cardiovascular diseases, including high blood pressure, coronary artery disease, cardiac valve disorders and heart dilatation. The presence of LVH increases the risk of developing heart attacks, heart failure and death. Treatment of these disorders is a major component of our escalating health-care costs. Consequently, reversal of LVH may have significant benefits to individual patients and society in general. We propose to develop a mouse model of an inherited form of LVH that is caused by gene mutations in heart muscle proteins. This model will enable us to study in detail the disease processes that cause LVH and the effects of reversing LVH. This information will be invaluable for determining the best ways of treating patients with LVH.Read moreRead less
NOVEL CGMP-BASED THERAPIES PREVENT LEFT VENTRICULAR REMODELLING
Funder
National Health and Medical Research Council
Funding Amount
$533,433.00
Summary
Over 300,000 Australians are affected by heart failure. Current drugs for cardiac remodelling (the decline in heart pumping function and changed structure that precede heart failure) slow but not reverse disease progression. We have identified a new, nitrovasodilator-based therapy superior to those currently available. We propose it represents a more effective treatment for reversing abnormalities in both structure and function in the remodelled heart, preventing or delaying heart failure.
Regulatory Pathways Of Compensatory Left Ventricular Hypertrophy
Funder
National Health and Medical Research Council
Funding Amount
$309,536.00
Summary
An increase in muscle bulk (hypertrophy) of the major pumping chamber of the heart, the left ventricle, occurs as a compensatory mechanism to maintain cardiac function in a wide variety of common cardiovascular diseases, such as hypertension. Nevertheless, this compensatory mechanism appears to be strongly associated with an increased risk of death from cardiovascular disease. Consequently, the prevention or reversal of left ventricular hypertrophy is one of the major goals of the treatment of p ....An increase in muscle bulk (hypertrophy) of the major pumping chamber of the heart, the left ventricle, occurs as a compensatory mechanism to maintain cardiac function in a wide variety of common cardiovascular diseases, such as hypertension. Nevertheless, this compensatory mechanism appears to be strongly associated with an increased risk of death from cardiovascular disease. Consequently, the prevention or reversal of left ventricular hypertrophy is one of the major goals of the treatment of patients with cardiovascular disease. This project aims to improve our understanding of the complex chemical messengers in the heart muscle that control the development of hypertrophy to provide a basis for more specific drug treatments to control this process, with the aim of reducing the morbidity and mortality associated with hypertrophy.Read moreRead less
Value Of Central Blood Pressure For GUIDing ManagEment Of Hypertension (BP GUIDE Study)
Funder
National Health and Medical Research Council
Funding Amount
$339,553.00
Summary
A pressure pulse may be felt at the wrist with every heart beat. New technology allows the analysis of this pulse and measurement of blood pressure (BP) at the heart (central BP) . This information may help doctors improve the decision making process regarding a patient's risk related to BP as well as the effect of drug treatment. The study aims to test this theory. It is expected that the new technology will improve the way people with high BP are identified and treated.
Recovery Of Left Ventricular Function After Insertion Of Left Ventricular Assist Device: Evaluation Of Echocardiographic Parameters And Longitudinal Analysis
Funder
National Health and Medical Research Council
Funding Amount
$124,676.00
Summary
In some patients with severe heart failure, insertion of a mechanical pump to assist the heart actually leads to recovery of the heart's function. More understanding of this process is needed so we can better predict and identify it.This project aims to assess the usefulness of ultrasound (echocardiography) in measuring heart function in patients who have a mechanical pump. Once its usefulness is established, we will use it to evaluate and attempt to induce recovery in such patients.
Benefit Of 2D-strain Surveillance In Improving Cardiovascular Outcomes In Cancer Patients Undergoing Cardiotoxic Chemotherapy
Funder
National Health and Medical Research Council
Funding Amount
$2,391,979.00
Summary
Cancer survivors are susceptible to heart failure (HF) caused by heart muscle damage from chemotherapy. The current testing for this problem is based on a measure that cannot identify minor changes of cardiac function. Cardiac strain is a sensitive new marker of cardiac function which is predictive of overt dysfunction & HF. This study seeks to identify whether strain can be used to assign treatments that lead to improved cardiac function and are eventually associated with a reduction in HF.
Clinical Utility Of New Non-invasive Assessments Of Left Ventricular Function.
Funder
National Health and Medical Research Council
Funding Amount
$48,361.00
Summary
This project involves a series of studies that investigate the use of new ultrasound measurements of heart function in order to assess whether or nor they make a meaningful contribution to patient management, both in terms of diagnosis and monitoring of treatments. Major studies include: 1) Detection and prevention of early heart disease in patients who are undergoing toxic chemotherapy for cancer; and 2) Investigation and treatment of patients with a high blood pressure response to exercise.