Age-Related Changes In Body Composition And Fuel Metabolism: The Role Of Glucocorticoid Signalling In Osteoblasts
Funder
National Health and Medical Research Council
Funding Amount
$820,528.00
Summary
Our previous studies suggest that age related changes in fat tissue could be due to an increased level of glucocorticoids within bone forming cells (osteoblasts). Mice in which the level of glucocorticoids in osteoblasts is selectively decreased were no different from normal mice at a young age but with ageing were protected against development of obesity and diabetes. This project will examine how bone influences age related changes in fat mass and examine ways in which this might be prevented.
Obesity ensues when calorie intake exceeds energy expended. Hitherto, up-regulating energy expenditure is a relatively unexplored avenue. This project will address 3 facets of energy expenditure (fat, muscle and neural control). Understanding how sex and steroids act in concert to regulate energy expenditure will pave the way towards developing novel anti-obesity agents. This work will delineate mechanisms that underpin gender differences in the regulation of body weight.
Optimising Lung Surfactant Protein Production In The IUGR Fetus At Risk Of Preterm Delivery
Funder
National Health and Medical Research Council
Funding Amount
$463,853.00
Summary
Pregnant women at risk of preterm labour after 24 weeks gestation are increasingly administered glucocorticoids in Australian hospitals in order to promote fetal lung maturation and a successful transition to extrauterine life. Antenatal glucocorticoid treatment reduces overall neonatal mortality, the risk of respiratory distress syndrome and the need for respiratory support. Babies that are born small may not benefit from this treatment in the same way that average size babies benefit.
Influence Of In Utero Environment On Diaphragm Structure And Function
Funder
National Health and Medical Research Council
Funding Amount
$494,966.00
Summary
The diaphragm is the major muscle involved in breathing. Normal function of the diaphragm is essential to survival. Preterm babies may be exposed to infection and other agents that interfere with diaphragm development and make breathing efforts weaker after birth, potentially leading to respiratory failure. This study will study diaphragms of preterm lambs to determine how fetal exposure to infection and steroids affect fetal diaphragm development, and if adverse effects are prevented by fetal t ....The diaphragm is the major muscle involved in breathing. Normal function of the diaphragm is essential to survival. Preterm babies may be exposed to infection and other agents that interfere with diaphragm development and make breathing efforts weaker after birth, potentially leading to respiratory failure. This study will study diaphragms of preterm lambs to determine how fetal exposure to infection and steroids affect fetal diaphragm development, and if adverse effects are prevented by fetal treatment with blocking agents.Read moreRead less