Identifying Novel Lipid And Genetic Signatures Of Metabolic Disease In Early Childhood
Funder
National Health and Medical Research Council
Funding Amount
$354,592.00
Summary
Both our genetic makeup and environment can contribute to the development of obesity, diabetes and heart disease. Although onset usually occurs in adulthood, the progression towards disease can start in early life. Early childhood represents an opportunity for intervention to avoid adverse health outcomes in adulthood. This proposal combines two established birth cohorts from Singapore (GUSTO) and Australia (BIS) to examine the genetic and environmental origins of metabolic diseases.
Improving The Management Of Diabetes In Pregnancy In Remote Australia
Funder
National Health and Medical Research Council
Funding Amount
$2,117,449.00
Summary
This study aims to optimise the management of diabetes in pregnancy (both gestational diabetes and pre-existing type 2 diabetes) and post-partum follow-up of these high risk women in order to reduce the risk of future chronic disease among women and their children. The proposal involves scale-up of successful initiatives that we have developed as part of the NT DIP Partnership, scale-up within the Northern Territory (NT) and to Far North Queensland (FNQ).
The European Commission study - Models of Child Health Appraised (MOCHA) will examine the most effective model of primary health care (medical and non-medical) for children. We will complement this work through specific Australian studies on (1) experiences at the primary/secondary care interface, (2) development and testing of paediatric quality measures and (3) determining if and how primary care addresses inequity; ensuring all the results are translatable outside the European context.
Early Nutrition, Epigenetics And Developmental Outcomes In Children.
Funder
National Health and Medical Research Council
Funding Amount
$550,093.00
Summary
Increasing evidence demonstrates that early nutrition, including in pregnancy, has long lasting programming effects on later health of children. Evidence implicates epigenetics (literally ‘above DNA’) in mediating these effects. The most convincing data exists for obesity and related disorders such as metabolic syndrome, diabetes, and heart disease. The focus of this project is on understanding how ‘epigenetic’ mechanisms are influencing the way our genes function to cause these disorders.