Human RIPC-derived Regulatory Molecules For Cardioprotection Against Ischemic And Cardiopulmonary Bypass Injury
Funder
National Health and Medical Research Council
Funding Amount
$642,083.00
Summary
Our previous work indicates that evoked human blood borne factors confer protection against injury, due to loss of blood flow in heart muscle, when a brief stress is remotely applied to a limb (remote ischemic preconditioning). We have identified these proteins that appear to activate genetic and metabolic regulation of adaptive cell survival processes. We will now test their individual and combined capacity, efficiency and mechanisms of protection in the heart using cell and clinical models.
Outcomes Of The Arterial Switch Operation: A Multi-centre Study
Funder
National Health and Medical Research Council
Funding Amount
$86,733.00
Summary
The arterial switch operation is the surgery of choice for children born with transposition of the great arteries, a congenital heart defect where the main two vessels of the heart arise from wrong pumping chambers of the heart. There are very few studies looking at adults after this operation. We aim to study all patients who have had an arterial switch. The results of this study will further increase our knowledge of the long term consequences of having the arterial switch operation.
Childhood Lymphatic Malformations: The Mechanism Of Rapamycin In Controlling Growth
Funder
National Health and Medical Research Council
Funding Amount
$456,579.00
Summary
Lymphatic malformations (also known as cystic hygromas or lymphangiomas) cause deformity and pain which can last lifelong. Current treatments help but do not fix all the symptoms. Rapamycin, a drug used for many years in children and adults with kidney transplants, may be useful for treating children with lymphatic malformations. We aim to understand how the drug works on the cells of lymphatic malformations in culture and in an animal model, to develop new and more effective treatments.