Targeting PI3K-regulated MicroRNAs To Treat Heart Failure
Funder
National Health and Medical Research Council
Funding Amount
$532,593.00
Summary
Current therapeutics largely delay heart failure progression rather than regressing it. New therapeutic strategies with the capability of improving function of the failing heart are thus greatly needed. The primary goal of this study is to determine whether novel regulatory genes can enhance cardiac function in a setting of heart failure. Ultimately, technologies that target these genes may lead to innovative pharmacotherapies in the clinical management of heart failure.
Targeting PI3K-regulated Small Non-coding RNAs To Restore Cardiac Function
Funder
National Health and Medical Research Council
Funding Amount
$610,204.00
Summary
Heart failure affects approximately 2.4% of the adult population and over 11% of people over 80 years old. The majority of existing therapies slow, rather than reverse heart failure progression. The primary goal of this study is to determine whether regulating novel regulatory genes can enhance cardiac function in a setting of heart failure. Ultimately, technologies that target these genes may lead to innovative pharmacotherapies in the clinical management of heart failure.
Australian Resuscitation Outcomes Consortium [AUS-ROC] CRE
Funder
National Health and Medical Research Council
Funding Amount
$2,668,571.00
Summary
The Australian Resuscitation Outcomes Consortium (Aus-ROC) will be modelled on the highly successful North American Resuscitation Outcomes Consortium. The mission of Aus-ROC will be to conduct clinical trials and observational studies into the emergency management of out-of-hospital cardiopulmonary arrest. Building on our existing collaborative partnerships, our goal is to improve patient outcomes and build the research capacity in prehospital emergency care.
The Clinical Utility Of Small Airway Function Tests In Paediatric Respiratory Disease
Funder
National Health and Medical Research Council
Funding Amount
$64,631.00
Summary
Respiratory disease is an important child health issue with long term implications into adulthood. The evaluation of small airways involvement in disease processes, using an accurate sensitive measures of function, such as forced oscillation technique and multiple breath washout, potentially facilitates not only early detection of disease, but instigation of earlier treatment, better assessment of response to treatment, and ultimately better outcome.
Metabolically Reprogramming The Stroma To Starve Pancreatic Tumours
Funder
National Health and Medical Research Council
Funding Amount
$598,848.00
Summary
Pancreatic cancer claims five Australian lives every day. Despite aggressive treatment regimes, there has been no improvement in patient survival in the last decade. Evidence suggests that targeting cancer cells alone is not enough. Pancreatic tumours are surrounded by an extensive scar tissue reaction (stroma). This intense stromal reaction inhibits drug delivery and increases tumour growth. Thus, decreasing the stroma is a potential therapeutic strategy and is the focus of this proposal.
Optimising Heart Disease Prevention And Management
Funder
National Health and Medical Research Council
Funding Amount
$4,647,175.00
Summary
As we become older and risk factors such as obesity become more common, our biggest contributor to death and disability, cardiovascular disease (including heart disease), will continue to exert an enormous burden on our health care system and society. We will extend our ground-breaking research on multidisciplinary teams to create new and innovative health care programs to optimise the prevention and management of new heart disease and chronic forms of heart disease.
Sudden Cardiac Arrest: Improving Detection Of Patients At Risk
Funder
National Health and Medical Research Council
Funding Amount
$838,845.00
Summary
Sudden cardiac death accounts for ~10% of deaths in our community. Many of these deaths occur in people who could otherwise have had many more years of productive life ahead of them. The aim of our research is to determine the underlying mechanisms so that we can develop better tools for detecting underlying problems before they become life threatening and potentially develop new treatments to modify the underlying causes.
Reduction Of Oxygen After Cardiac Arrest: The EXACT Trial
Funder
National Health and Medical Research Council
Funding Amount
$1,891,021.00
Summary
We aim to conduct a Phase 3 multi-centre, randomised, controlled trial to determine whether reducing oxygen administration to target a normal level as soon as possible following successful resuscitation from out-of-hospital cardiac arrest, compared to current practice of maintaining 100% oxygen, improves patient survival at hospital discharge.
The Structural Basis For Promiscuity Of Drug Binding To HERG K+ Channels
Funder
National Health and Medical Research Council
Funding Amount
$713,035.00
Summary
Special proteins called ion channels control the electrical activity of the heart. Drugs that block ion channels can have the unwanted side-effect of altering the rhythm of the heart beat and causing sudden cardiac death. Extensive efforts are made to screen for this problem during drug development but it is still an inexact science. Here we will use high resolution imaging technologies to get a better understanding of how drugs bind to ion channel proteins.
EPITHELIAL ION TRANSPORT DEFECTS IN CYSTIC FIBROSIS: PATHOPHYSIOLOGY AND TREATMENT
Funder
National Health and Medical Research Council
Funding Amount
$290,440.00
Summary
The thin layer of fluid covering the surface of the air passages acts to protect the airway surface from drying. This fluid also allows the hair-like projections, or cilia, on the top of the airway cells to beat more effectively. The volume and composition of this fluid is determined by the movement of salt and water across the mucous membranes of the air passages. The importance of this fluid is shown by the problems that occur in Cystic Fibrosis (CF), the most common lethal inherited disease a ....The thin layer of fluid covering the surface of the air passages acts to protect the airway surface from drying. This fluid also allows the hair-like projections, or cilia, on the top of the airway cells to beat more effectively. The volume and composition of this fluid is determined by the movement of salt and water across the mucous membranes of the air passages. The importance of this fluid is shown by the problems that occur in Cystic Fibrosis (CF), the most common lethal inherited disease affecting Australians. In CF, altered salt transport causes drying of the airway surface which impairs the working of the cilia. This leads to retention of mucous in the airway with repeated bacterial infections damaging the lungs. Simple tests have been designed to directly measure the movement of salt across the surface of the nasal passage using a fine soft rubber tube. Movement of mucous in the nose is measured using other simple techniques that are currently used diagnostically. Together, these tests in the nose provide vital information about how the surface of normal human airway moves salt, water and mucous. Any differences found in CF patients will then give us a good idea of the problems found in the CF lung. We will study the interactions between calcium, sodium and chloride in the fluid lining the airways, measuring changes in salt and mucous movement. A range of testing procedures will be used in human volunteers, anaesthetised mice and isolated tissues from sheep. We have already demonstrated important links between the fluid lining the airways and salt movement, and we expect that this may lead to the development of new treatments for Cystic Fibrosis. This therapy will focus on treating the lung problems of CF patients, the major cause of disability. We anticipate that this preventative therapy may offer real benefits in the fight to cure CF.Read moreRead less