Obesity is an important cause of disease, including liver disease. Obesity-associated liver disease occurs when the liver becoming resistance to the effects of insulin, the hormone that controls blood sugar (glucose). In muscle and fat, insulin causes glucose to be taken into the tissues and stored. Glucose is made in the liver and the actions of insulin here are to turn off the release of glucose into the circulation and increase uptake and storage of glucose. Insulin resistance occurs in a num ....Obesity is an important cause of disease, including liver disease. Obesity-associated liver disease occurs when the liver becoming resistance to the effects of insulin, the hormone that controls blood sugar (glucose). In muscle and fat, insulin causes glucose to be taken into the tissues and stored. Glucose is made in the liver and the actions of insulin here are to turn off the release of glucose into the circulation and increase uptake and storage of glucose. Insulin resistance occurs in a number of situations but the most important of these is obesity, particularly when there is accumulation of fat inside the abdominal cavity. Although the liver has a central role in co-ordinating the bodies response to insulin, the mechanisms of insulin resistance in human liver are unknown. One prominent hypothesis is that fat molecules released by intra-abdominal fat deposits are responsible. Intra-abdominal fat stores are important because fatty acids from these deposits can travel directly to the liver with the blood supply from the gut. However the precise effects of these on insulin action in the liver are unknown. Fat tissue is actively involved in the regulation of metabolism and releases a number of regulatory proteins. One of these, adiponectin, appears to have an important role in improving insulin sensitivity in the liver. The production of adiponectin decreases as obesity increases, providing another link between obesity and insulin resistance in the liver. This project will examine insulin action and the signalling molecules responsible for this in human liver tissue. The project aims to determine the effect of obesity, particularly intra-abdominal fat deposits, on insulin responses in liver tissue. The studies also aim to confirm (or otherwise) the role of free fatty acids and adiponectin on insulin action in human liver. The data from these studies will contribute to our understanding of insulin resistance and obesity-related liver disease.Read moreRead less
Effects Of N-3 Polyunsaturated Fatty Acids On Post Surgical Atrial Fibrillation: A Prospective Randomised Study
Funder
National Health and Medical Research Council
Funding Amount
$536,529.00
Summary
Consumption of fish and fish oil has been associated with protective effects for deaths from heart disease in many studies. The effects are consistent and quite strong and appear to be unrelated to blood cholesterol levels. The effects are more likely due to the possibility that fish oil, which contains n-3 fats, can suppress abnormal heart rhythms which can cause 'sudden cardiac death'. This has been shown in animal studies, and recently we have shown that they can also suppress abnormal heart ....Consumption of fish and fish oil has been associated with protective effects for deaths from heart disease in many studies. The effects are consistent and quite strong and appear to be unrelated to blood cholesterol levels. The effects are more likely due to the possibility that fish oil, which contains n-3 fats, can suppress abnormal heart rhythms which can cause 'sudden cardiac death'. This has been shown in animal studies, and recently we have shown that they can also suppress abnormal heart rhythms in humans. Patients undergoing coronary bypass surgery are particularly susceptible to abnormal heart rhythms in the upper chambers of the heart in the days immediately following surgery. While these abnormal rhythms are rarely life threatening, they can result in increased post-surgical complications and a longer hospital stay with associated increased costs to the health system. In this study we will determine whether providing high dose fish oil for 3 weeks immediately preceding coronary bypass surgery, will result in a reduction in the proportion of patients experiencing post-surgical abnormal heart rhythms. We will also examine the effects of n-3 fats on the incidence of other complications following bypass surgery and also the length of hospital stay. In addition, we will gather data which will provide insight into the mechanisms by which n-3 fatty acids produce their well documented benefits to patients with cardiovascular disease. The significance of this study is its ability to provide a protective strategy in heart disease in which the mechanism is understood, which is effective, and importantly, which will have the potential to provide savings to the health care system through a reduction in hospital stay.Read moreRead less
Does N-3 LCPUFA Supplementation In Pregnancy Reduce Asthma And Allergies In School Age Children?
Funder
National Health and Medical Research Council
Funding Amount
$443,833.00
Summary
We will determine whether supplementing the diets of pregnant women with fish oil can have long term effects on the development of the childÍs immune system and reduce the prevalence of asthma and allergies at early school age. The outcomes of our project will inform nutritional guidelines for pregnant women and, if successful, has the potential to significantly lower the costly burden of childhood asthma and allergies to families and the healthcare system.
N-3 LCPUFA Supplementation In Pregnancy To Reduce Allergies In Early Childhood
Funder
National Health and Medical Research Council
Funding Amount
$813,423.00
Summary
Over the last 20 years there has been a dramatic increase in allergic diseases in Australia as well as many other industrialised countries. This may be due to changes in our environment or diet. Over this period of time there has also been an increase in the dietary intake of n-6 fatty acids from vegetable oils and a corresponding decline in the intake of n-3 fatty acids from fish. Studies now indicate that there is a plausible link between these dietary changes and allergic diseases. Furthermor ....Over the last 20 years there has been a dramatic increase in allergic diseases in Australia as well as many other industrialised countries. This may be due to changes in our environment or diet. Over this period of time there has also been an increase in the dietary intake of n-6 fatty acids from vegetable oils and a corresponding decline in the intake of n-3 fatty acids from fish. Studies now indicate that there is a plausible link between these dietary changes and allergic diseases. Furthermore, emerging data suggest that the potential benefits of increasing n-3 fatty acids may be greatest during pregnancy and before allergic responses are established. Our project aims to minimise allergies in children from families where at least one parent has an allergy. We will assess whether dietary n-3 fatty acid supplementation of pregnant women will result in fewer children with allergies at 1 and 3 years of age. If the proposed intervention is successful, it would be a safe, cheap, acceptable and effective strategy to prevent allergies in children at high risk.Read moreRead less
Docosahexaenic Acid (DHA) From Dairy. How Dietary Omega-3 Fats From Dairy Can Increase DHA Levels To Improve
Funder
National Health and Medical Research Council
Funding Amount
$427,887.00
Summary
A high level of the omega-3 fat DHA in the blood is related to good health and has benefits on neural development in breastfed infants. Infant formulas have been enriched with preformed DHA but are expensive and may be environmentally unsustainable. Dairy contains DPA, a direct precursor of DHA. I aim to identify DPA-rich dairy sources, produce a safe and inexpensive nutritional powder and validate its efficacy in an animal model and a human infant clinical trial. Based on research outcomes, thi ....A high level of the omega-3 fat DHA in the blood is related to good health and has benefits on neural development in breastfed infants. Infant formulas have been enriched with preformed DHA but are expensive and may be environmentally unsustainable. Dairy contains DPA, a direct precursor of DHA. I aim to identify DPA-rich dairy sources, produce a safe and inexpensive nutritional powder and validate its efficacy in an animal model and a human infant clinical trial. Based on research outcomes, this powder will be safe and inexpensive and have the potential to be marketed as a Infant Formula Supplement.Read moreRead less
Many dietary recommendations are inconsistent and based on inadequate research based on 1970s technologies. As a result, the current recommendations are almost impossible to meet from foods, without nutritional supplements. Using state-of-the-art technology, this research aims to redefine the nutritional requirements omega-3 long chain polyunsaturated fatty acids, iron and iodine, as well as the correct balance of energy producing macronutrients in the diet of mothers and their children.