Application Of Follistatin To The Resolution Of Liver Fibrosis
Funder
National Health and Medical Research Council
Funding Amount
$330,990.00
Summary
Liver fibrosis or scarring is a consequence of a number of diseases, leading eventually to extensive damage known as cirrhosis. It is a significant health problem both here in Australia and overseas with around 180,000 patients diagnosed each year in the Western world. Cirrhosis arises from many causes, two major groups being patients who contract hepatitis and alcoholics. People with cirrhosis have a much increased risk of liver failure, which requires liver transplantation, or of developing li ....Liver fibrosis or scarring is a consequence of a number of diseases, leading eventually to extensive damage known as cirrhosis. It is a significant health problem both here in Australia and overseas with around 180,000 patients diagnosed each year in the Western world. Cirrhosis arises from many causes, two major groups being patients who contract hepatitis and alcoholics. People with cirrhosis have a much increased risk of liver failure, which requires liver transplantation, or of developing liver cancer, for which current treatments have limited success. We have been studying two proteins, activin and follistatin, both of which are made in the liver. We are interested in activin because it is one of the body's mechanisms to control cell growth, and also seems to stimulate the development of scar tissue. Follistatin is the natural inhibitory substance for activin. It blocks the effects of activin and helps promote cell growth in the liver. We believe that follistatin may also be useful in controlling liver scarring. This process will be studied in animal models of cirrhosis, in the hope that follistatin treatment will reduce the level of liver damage. If successful, this would be important information that would enable us to design treatments applicable to human sufferers of these liver diseases. In another part of the project, we will assess whether activin and follistatin might be useful markers of liver disease. Most patients require a liver biopsy to assess the amount of liver damage, and a simple blood test would be a far easier, less traumatic and cheaper alternative.Read moreRead less
Non-invasive Measurement And Imaging Of Hepatic Iron Concentrations Using Nuclear Magnetic Resonance
Funder
National Health and Medical Research Council
Funding Amount
$341,210.00
Summary
Iron overload diseases such as genetic haemochromatosis and thalassaemia affect up to 0.5% of the world's population. These diseases result in deposition of dangerously high concentrations of iron in tissues of the body. Organs such as the liver and heart are at particular risk of being damaged. In order to manage a patient's condition optimally, a knowledge of their tissue iron concentrations is required. Currently the most direct and reliable way of achieving this is to remove a small sample o ....Iron overload diseases such as genetic haemochromatosis and thalassaemia affect up to 0.5% of the world's population. These diseases result in deposition of dangerously high concentrations of iron in tissues of the body. Organs such as the liver and heart are at particular risk of being damaged. In order to manage a patient's condition optimally, a knowledge of their tissue iron concentrations is required. Currently the most direct and reliable way of achieving this is to remove a small sample of the patient's liver for chemical analysis. Apart from the fact that the procedure is unpleasant and carries some risk, the measurement made by this method has some uncertainty because the liver iron concentration can vary significantly from place to place within the liver. The aim of this project is to test the validity of a new non-invasive method of measuring and imaging the liver iron concentrations of a patient. In addition, the potential to use the new technology for detecting and imaging liver cirrhosis in iron overloaded patients will be evaluated. If successful, the project may lead to a more accurate method of measuring tissue iron concentrations and eliminate the need for invasive procedures.Read moreRead less