Childhood diabetes [both type 1- and young type 2-] is increasing alarmingly. Diabetes prevention will be a great benefit via both a healthier population and relief to the national health budget. To develop targeted preventive treatments we first need to identify genetic risk factors, requiring access to a large number of samples. We will establish a national Repository which will make DNA available to all qualified Australian researchers enhancing their ability to identify causes of diabetes.
Defining Vascular Health And Modifiable Risk Factors Over Time In Childhood.
Funder
National Health and Medical Research Council
Funding Amount
$368,061.00
Summary
Adult heart disease and strokes have their origin in childhood. We will follow healthy children and children with diabetes or obesity over 2 years during puberty when blood vessel disease is detectable. We will define which are the most sensitive markers of blood vessel disease and the continuum of risk factors. This is essential knowledge to best define children at risk and to test clinical and public health interventions.
Apoptotic Pathways In Pancreatic Beta Cells Leading To Type 1 Diabetes And Transplant Rejection
Funder
National Health and Medical Research Council
Funding Amount
$535,333.00
Summary
The destruction of insulin-producing beta cells in the pancreas by immune cells leads to the need for daily insulin injections in patients with type 1 diabetes. This project aims to understand how beta cells are destroyed. A knowledge of the process by which this occurs will indicate ways we can protect these cells. Our previous work has suggested strategies that may protect beta cells, and we aim to test these. Such protection may eventually allow beta cell replacement by transplantation.
A Longitudinal Study Of Nerve Morphology In Diabetic Neuropathy Using Novel Non-invasive Ophthalmic Surrogate Markers
Funder
National Health and Medical Research Council
Funding Amount
$540,372.00
Summary
This research project will use two new ophthalmic instruments - the corneal confocal microscope and non-contact corneal aesthesiometer - to directly monitor changes in corneal nerves and corneal sensitivity, over a 5 year period, in diabetic patients suffering from a painful condition of the arms and legs known as diabetic neuropathy. This study will generate important new information that could allow diabetic doctors to more accurately monitor the progression of the disease.