"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
Discovery Early Career Researcher Award - Grant ID: DE240100635
Funder
Australian Research Council
Funding Amount
$448,801.00
Summary
Understanding the development of lifestyle behaviours in early childhood. This project adopts novel statistical modelling and machine learning approaches to understand the development of lifestyle behaviours in early childhood. Despite the pivotal role of lifestyle behaviours in influencing health and quality of life, little research exists on lifestyle behaviours in early childhood. This project will establish a comprehensive understanding of lifestyle behaviours in early childhood by identifyi ....Understanding the development of lifestyle behaviours in early childhood. This project adopts novel statistical modelling and machine learning approaches to understand the development of lifestyle behaviours in early childhood. Despite the pivotal role of lifestyle behaviours in influencing health and quality of life, little research exists on lifestyle behaviours in early childhood. This project will establish a comprehensive understanding of lifestyle behaviours in early childhood by identifying key developmental time points, mechanisms of behavioural change, and children at risk of developing poor lifestyle behaviours. The project will inform strategies and policies to optimise lifestyle behaviours from the start of life and showcase the capabilities of novel methods in advancing behavioural epidemiology.Read moreRead less
Gene Discovery and Functional Analysis of Copper Homeostasis Genes in Drosophila. Copper is a vital nutrient required for the formation and maintenance of bones, blood vessels and the central nervous system, but copper is also potentially toxic when in excess. Homeostatic mechanisms are needed to maintain safe levels of copper in the body and disruptions to these mechanisms are associated with disorders such as Alzheimer's disease, heart disease and osteoporosis. We are investigating the regulat ....Gene Discovery and Functional Analysis of Copper Homeostasis Genes in Drosophila. Copper is a vital nutrient required for the formation and maintenance of bones, blood vessels and the central nervous system, but copper is also potentially toxic when in excess. Homeostatic mechanisms are needed to maintain safe levels of copper in the body and disruptions to these mechanisms are associated with disorders such as Alzheimer's disease, heart disease and osteoporosis. We are investigating the regulation of a key copper pump, the Menkes protein, which helps control copper levels in the body and we are using the genetic advantages of the fruit fly Drosophila to discover new genes that regulate Menkes activity and therefore copper levels. These studies could lead to novel therapies for a range of copper-related disorders.Read moreRead less