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.
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.
Prediction Of Microvascular Complications In Type 1 Diabetes Using Novel Retinal Vascular Imaging Techniques
Funder
National Health and Medical Research Council
Funding Amount
$396,818.00
Summary
Children with type 1 diabetes face the risk of developing severe complications later in life involving their eyes (retinopathy), kidneys (nephropathy) and nerves (neuropathy). This study aims to determine if subtle, early changes seen in the retinal blood vessels, as measured from new computer imaging techniques, predict the subsequent development of these diabetes complications in children-adolescents with type 1 diabetes.
Expansion, Differentiation And Functional Analysis Of In Vitro Derived Pdx1+ Pancreatic Progenitors
Funder
National Health and Medical Research Council
Funding Amount
$540,075.00
Summary
Type 1 diabetes is a condition that arises when the body's immune system destroys insulin-producing beta cells within the pancreas. Recent studies have shown that normal glucose control can be restored by replacing the missing beta cells by transplantation of cells from deceased donors. However, the demand for transplant material outweighs supply. The work described in this application seeks to define how insulin-producing beta cells can be derived in the laboratory from embryonic stem cells .
Aldosterone Inhibition And Diabetic Retinopathy: Treatments And Mechanisms Of Action
Funder
National Health and Medical Research Council
Funding Amount
$511,294.00
Summary
The World Health Organization predicts that by 2030, more than 360 million people will have diabetes. Despite almost all patients developing retinopathy, current treatments do not prevent disease progression. One strategy being evaluated is blockade of a hormone called angiotensin II. We have new evidence that a related system called aldosterone exists in retina and contributes to damage. This project will determine if aldosterone blockade is a potential treatment for diabetic retinopathy.
PRE CLINICAL TRIAL WITH FETAL PIG INSULIN-PRODUCING CELLS
Funder
National Health and Medical Research Council
Funding Amount
$292,416.00
Summary
If fetal pig cells are to be of value in normalizing blood glucose levels in diabetic people once transplanted, they must survive and mature after being grafted. The pre-clinical study proposed will examine several novel issues that are of direct relevance to future clinical trials. The diabetic pig will be used as recipient to address when the fetal cell matures after it is transplanted, how long the grafted cells will maintain normal blood glucose levels, and at which site it is most appropria ....If fetal pig cells are to be of value in normalizing blood glucose levels in diabetic people once transplanted, they must survive and mature after being grafted. The pre-clinical study proposed will examine several novel issues that are of direct relevance to future clinical trials. The diabetic pig will be used as recipient to address when the fetal cell matures after it is transplanted, how long the grafted cells will maintain normal blood glucose levels, and at which site it is most appropriate to transplant the cells. The baboon will be used as recipient to address the safety of transplanting the pig cells, especially from the pig endogenous retrovirus, and whether the immunosuppressive regime proposed for use in humans will prevent cellular rejection. The diabetic baboon will be used in the final experiment step to determine if normalization of blood glucose levels can be achieved in this xenografted animal just as it can in the diabetic pig.Read moreRead less
The Role Of Hypoxia Inducible Factor 1a In Beta-Cell Function And Diabetes
Funder
National Health and Medical Research Council
Funding Amount
$362,303.00
Summary
HIF1a is a gene which our preliminary data shows is needed for normal beta-cell function and insulin secretion. When beta-cells cannot release enough insulin, blood sugar levels rise, and diabetes develops. This research plan will look at the effects of deletion of HIF1a and of increasing HIF1a to see how this affects function of beta-cells and - or diabetes development. This work may show that HIF1a is a potential therapeutic target for the treatment of diabetes in humans.
Growth hormone is responsible for normal postnatal growth, is an important metabolic regulator in starvation, and has many useful therapeutic applications, including forms of cardiac insufficiency, Crohns disease and, it is thought, amelioration of ageing. The means whereby GH brings about these changes are not known, although we do know a considerable amount about how the individual domains within the GH receptor signal. What we do not know is which genes are regulated by GH in these processes, ....Growth hormone is responsible for normal postnatal growth, is an important metabolic regulator in starvation, and has many useful therapeutic applications, including forms of cardiac insufficiency, Crohns disease and, it is thought, amelioration of ageing. The means whereby GH brings about these changes are not known, although we do know a considerable amount about how the individual domains within the GH receptor signal. What we do not know is which genes are regulated by GH in these processes, and how this will change the state of the cell. We propose here to use the new technique of gene arrays to uncover the programs, or groups of genes, which GH regulates to change important cellular processes. When used in conjunction with cells expressing GH receptor mutants which are unable to signal to defined pathways, we will be able to know which functional families genes are regulated, and how they are regulated. This information will enable us to know how GH regulates cell growth and metabolism, and therfore to understand what goes wrong when GH or its mediator, IGF-1 , are abnormal. We can also use this information to validate small molecules designed to mimic GH through activating its receptor, to be certain that they are acting in the same way as GH.Read moreRead less
Effect Of Oral Glutamine On GLP-1 And Insulin Secretion And Glycaemia In Humans.
Funder
National Health and Medical Research Council
Funding Amount
$397,444.00
Summary
Diabetes is an ever increasing problem with serious complications. We will investigate whether glutamine, one of the most common amino acids (protein building blocks) in the body, has a beneficial effect on blood glucose and insulin levels in the body in people who have type 2 (non-insulin dependent) diabetes. If so, glutamine supplementation may represent a novel, cheap and palatable way of improving outcomes and preventing the development of complications in people with type 2 diabetes.