Activin A And Follistatin Are Potential Key Regulators Of Organ Transplant Dysfunction And Graft Survival.
Funder
National Health and Medical Research Council
Funding Amount
$535,579.00
Summary
The grant examines novel key regulators in organ transplantation. It examines molecules that are released during transplant surgery and on the return of blood flow to the organ which can cause inflammation and scarring. The release is increased by heparin, an anticoagulant used in organ preparation. Alternative anticoagulants and blockers of the regulators released will be tested to prevent the damage to the transplant, potentially improving both the short and long term graft survival and functi ....The grant examines novel key regulators in organ transplantation. It examines molecules that are released during transplant surgery and on the return of blood flow to the organ which can cause inflammation and scarring. The release is increased by heparin, an anticoagulant used in organ preparation. Alternative anticoagulants and blockers of the regulators released will be tested to prevent the damage to the transplant, potentially improving both the short and long term graft survival and function.Read moreRead less
Enkephalin Metabolism In Cardiac Ischemia, Heart Failure And Cardiac Surgery
Funder
National Health and Medical Research Council
Funding Amount
$327,037.00
Summary
It has recently been discovered in animal studies that heart muscle can make its own opioid proteins. Previously, it was thought that only nerves made and released opioids. We have recently found that a class of opioids called enkephalins are made and then depleted from the heart during the stress of oxygen and nutrient deprivation. Enkephalins have been found to have potent metabolic effects on the heart. Previous work has shown that opioids can protect the heart against injury incurred during ....It has recently been discovered in animal studies that heart muscle can make its own opioid proteins. Previously, it was thought that only nerves made and released opioids. We have recently found that a class of opioids called enkephalins are made and then depleted from the heart during the stress of oxygen and nutrient deprivation. Enkephalins have been found to have potent metabolic effects on the heart. Previous work has shown that opioids can protect the heart against injury incurred during disease that restricts energy and oxygen supply to the blood vessels and heart. We wish to demonstrate this for the first time in human heart, and we will explore whether the production of enkephalins is altered by the stresses of cardiac surgery and heart failure. Understanding how the human heart attempts to protect itself in disease and how enkephalins work under these conditions, may prove valuable in the development of new drug therapy with synthetic drugs which mimic the action of enkephalins for heart protection during cardiac surgery, heart transplantation and ischemic heart disease. We will test whether specific enkephalins may be used to improve donor heart viability for transplantation by improving the duration and quality of preservation during storage. Understanding what happens to enkephalin production and metabolism in the failing hearts of patients may allow us to find new therapeutic targets in heart failure.Read moreRead less
Acute pancreatitis is an acute abdominal inflammatory process (the pancreas attempts to digest itself) with significant mortality in those patients having the severe form of the disease. The commonest causes of the disease are gallstones and excessive alcohol consumption. Approximately 80% of patients with acute pancreatitis recover, but 20% experience the severe form of the disease. In severe pancreatitis, 30% of patients die. Severe pancreatitis is associated with necrosis (cell death) of the ....Acute pancreatitis is an acute abdominal inflammatory process (the pancreas attempts to digest itself) with significant mortality in those patients having the severe form of the disease. The commonest causes of the disease are gallstones and excessive alcohol consumption. Approximately 80% of patients with acute pancreatitis recover, but 20% experience the severe form of the disease. In severe pancreatitis, 30% of patients die. Severe pancreatitis is associated with necrosis (cell death) of the pancreas which, results from reduced blood flow in the organ. This reduced blood flow may be secondary to increased pressure in the pancreatic duct following occlusion of the duct. Preliminary studies suggest that the reason why the pancreas may be susceptible to necrosis is the anatomical arrangement of its blood supply, being made up of many end arterioles (very small arteries) that do not connect with other arteries. The consequence of this arrangement is that if a particular end arteriole becomes blocked, the area of the tissue cannot obtain a blood supply from neighbouring arterioles (as in other organs). Blood supply is partly controlled by nerves. The nerve transmitter nitric oxide is one of the major chemicals involved in this regulation. Nitric oxide also regulates the pressure in the pancreatic duct by acting on the sphincter of Oddi, situated at the opening of the pancreatic duct. Consequently, the action of nitric oxide during pancreatitis may be crucial to the development of the severe disease. This proposal seeks to define the blood supply of the pancreas, its regulation, the effect that increased pancreatic duct pressure has on it and the role that nitric oxide plays in this. If the hypotheses regarding the role of nitric oxide on pancreatic blood flow is proven, then drugs which influence nitric oxide levels can be used to limit the production of pancreatic necrosis. In turn, such an effect will reduce the mortality and morbidity of acute pancreatitis.Read moreRead less