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.
I am a scientist with a background in molecular and cellular pathology. My research relates to studies of animals models of diabetic kidney and heart disease focusing on the discovery of novel treatments.
The Role Of The Endothelium In Insulin's In Vivo Action Upon Skeletal Muscle Metabolism.
Funder
National Health and Medical Research Council
Funding Amount
$451,500.00
Summary
A number of studies using novel techniques developed in association with our USA collaborators, indicate that insulin has a major stimulatory effect on blood flow within muscle in both animals and humans to improve access for itself as well as nutrients such as glucose. As much as 50% of the glucose taken up by muscle in vivo during continual exposure to insulin may be attributed to this effect. Moreover, this haemodynamic effect of insulin in muscle is impaired in a number of animal models and ....A number of studies using novel techniques developed in association with our USA collaborators, indicate that insulin has a major stimulatory effect on blood flow within muscle in both animals and humans to improve access for itself as well as nutrients such as glucose. As much as 50% of the glucose taken up by muscle in vivo during continual exposure to insulin may be attributed to this effect. Moreover, this haemodynamic effect of insulin in muscle is impaired in a number of animal models and in obese humans when insulin mediated muscle glucose uptake is also impaired. What is not known is how insulin mediates this haemodynamic effect of recruiting capillary blood flow. Thus in the present study a number of aspects are to be explored, with particular focus on the cells that line the blood vessels and constitute the capillaries, the so called endothelium. First, we will explore the specific role of the endothelium in insulin's action by using the novel approach of attaching insulin to a large molecule that prevents it leaving the lumen of the blood vessel. This will mean that insulin will be confined to interacting only with insulin receptors on the muscle endothelium. Similarly, non activating anti insulin receptor antibody will be used in the presence of insulin to selectively prevent activation of the endothelial insulin receptors. In addition, we will investigate whether homocysteine, an amino acid found to impair endothelial dependent vasodilatation, impairs the haemodynamic effects of insulin. The impact that normal insulin release after a meal has upon the haemodynamic actions in muscle and the role this has in muscle glucose uptake will also be investigated by using the techniques developed in the first part of the project. Our over riding hypothesis is that the endothelium plays a key role in controlling insulin and possibly glucose access to muscle cells and thus a significant proportion of insulin mediated metabolic events in muscle.Read moreRead less
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.
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.
Mechanisms Of Hypoglycaemic Damage In Developing Brain- A Protective Role For The Insulin-like Growth Factor System
Funder
National Health and Medical Research Council
Funding Amount
$408,055.00
Summary
The developing brain in the newborn infant or young child is vulnerable to many damaging influences. It is highly dependent on its essential fuel, glucose. Hypoglycemia, or lack of glucose availability, is therefore among the most damaging insults to the young brain, potentially leading to learning difficulties, developmental delay, cerebral palsy or epilepsy. Babies born premature or very small are at risk, as are those exposed to excessive insulin, such as infants of diabetic mothers. Children ....The developing brain in the newborn infant or young child is vulnerable to many damaging influences. It is highly dependent on its essential fuel, glucose. Hypoglycemia, or lack of glucose availability, is therefore among the most damaging insults to the young brain, potentially leading to learning difficulties, developmental delay, cerebral palsy or epilepsy. Babies born premature or very small are at risk, as are those exposed to excessive insulin, such as infants of diabetic mothers. Children with diabetes are also at risk, when their therapy with insulin may at times be excessive, leading to hypoglycaemia and impaired glucose availability for the brain. This proposal is examining at the cellular level the mechanisms involved in loss of brain cells in the face of glucose starvation in these various conditions. We are using several in vitro models where we can grow segments of developing mouse brain or human nerve cells in a dish, compared to studies with mice subjected to low blood glucose (hypoglycemia). After establishing that our laboratory models are representative of the whole animal, we will explore the cellular mechanisms involved in neuronal death following hypoglycaemia, particularly the interaction between the insulin-like growth factor (IGF) and other cell survival genes. We will also examine the possibility that treatment with IGF will reduce the loss of nerves in the brain after an episode of hypoglycemia. This may offer new and effective early treatment for this damaging brain injury in both newborn babies and children with insulin-dependent diabetes.Read moreRead less
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.
I am a physiologist and my diabetes research involves a preclinical approach to address the issue of diabetes and its major renal and cardiovascular complications
Prof Cooper’s diabetes research encompasses basic mechanisms through to translational research and major clinical trials in order to address the issue of diabetes and in particular the prevention and management of its major renal and cardiovascular complications.