Discovery Early Career Researcher Award - Grant ID: DE120101807
Funder
Australian Research Council
Funding Amount
$375,000.00
Summary
Fat sensing in the oral cavity and gastrointestinal tract: role in the regulation of gastrointestinal function and energy intake in health and obesity. This project will determine whether a reduced capacity to sense, or taste, the presence of fats in the oral cavity and the gastrointestinal tract diminishes the effects of fat on those aspects of gut function that regulate appetite and suppress energy intake. The project will, accordingly, provide important insights into the pathophysiology of ob ....Fat sensing in the oral cavity and gastrointestinal tract: role in the regulation of gastrointestinal function and energy intake in health and obesity. This project will determine whether a reduced capacity to sense, or taste, the presence of fats in the oral cavity and the gastrointestinal tract diminishes the effects of fat on those aspects of gut function that regulate appetite and suppress energy intake. The project will, accordingly, provide important insights into the pathophysiology of obesity.Read moreRead less
"Smart Food" - The fulcrum in the energy balance equation. The overall aim of the project is to establish how nutrients best promote an increase in energy expenditure and therefore weight loss. The experiments will be performed in rats using sophisticated technologies to introduce specific combinations of fats, carbohydrates or proteins directly into the stomach and then measure energy expenditure in a specialised type of energy burning rather than energy storing fat called brown adipose tissue. ...."Smart Food" - The fulcrum in the energy balance equation. The overall aim of the project is to establish how nutrients best promote an increase in energy expenditure and therefore weight loss. The experiments will be performed in rats using sophisticated technologies to introduce specific combinations of fats, carbohydrates or proteins directly into the stomach and then measure energy expenditure in a specialised type of energy burning rather than energy storing fat called brown adipose tissue. These experiments will uncover the mechanisms that relate nutrients in the stomach and activation of brown adipose tissue. They will provide a framework on which this project can build a knowledge of smart diets that will allow the effective control of body weight through modulation of energy expenditure. Read moreRead less
Role of ferroxidases in intestinal iron transport. This project will investigate the mechanism by which the body absorbs the essential nutrient iron from the diet. These studies will enhance our knowledge of an important nutritional pathway and improve our capacity to treat diseases where iron absorption is defective, such as the iron loading disorder haemochromatosis.
Developmental programming of adult stress responses: early life nutrition permanently alters stress and immune function. Obese children are more likely to grow up to be obese adults than normal-weight children are. Their early life diet may be at least partly to blame. Early life nutrition can also compromise ability to respond to stress or inflammation. This project will investigate how this occurs and if these effects are specific to the developmental period.