Diabetes affects over one million Australians and is an increasing health problem in Australia and worldwide. Diabetes can damage small blood vessels, harming the kidneys and eyes and large blood vessels leading to heart attack, stroke and leg amputation. The research team leading this Centre for Clinical Research Excellence (CCRE) has wide experience in diabetes research and includes experts in diabetes management in hospitals and in the community setting of general practice. There is special e ....Diabetes affects over one million Australians and is an increasing health problem in Australia and worldwide. Diabetes can damage small blood vessels, harming the kidneys and eyes and large blood vessels leading to heart attack, stroke and leg amputation. The research team leading this Centre for Clinical Research Excellence (CCRE) has wide experience in diabetes research and includes experts in diabetes management in hospitals and in the community setting of general practice. There is special expertise in eye disease and in dietary management of diabetes. The research team will conduct research into diabetes, both type 1 diabetes, which usual starts in childhood, and type 2 diabetes that generally affects middle aged or older people, although increasingly is occurring in younger adults as the population becomes more obese. We will focus on the complications, which are common to both types of diabetes, looking for ways to detect them early and prevent them. Our studies will involve groups of up to 10,000 people with diabetes, sometimes followed over 5 or more years. Indigenous Australian groups will be included in the studies as they have a high rates of diabetes and its complications. We will also study ways in which people with type 2 diabetes can be more involved in improving the management of their illness. An exciting part of the study program will involve patients having transplants of insulin producing human islet cells. Although this treatment will be available for only a few patients, it is an important advance towards future treatments using human cells. The CCRE will have a very strong focus on recruiting and training the next generation of doctors and other clinicians involved in diabetes research, including nurses, dietitians and optometrists.Read moreRead less
Receptor-mediated Actions Of Prorenin In Diabetic Retinopathy
Funder
National Health and Medical Research Council
Funding Amount
$733,841.00
Summary
Despite improvements in patient care, the incidence of diabetic retinopathy is dramatically increasing. Recent evidence suggests that a component of a hormonal system, called prorenin, may participate in the development of diabetic organ disease. We will evaluate the role of prorenin in vascular and nerve damage in animal models of diabetic retinopathy. We will determine if a new inhibitor of prorenin, prevents retinal injury and is a potential treatment for diabetic retinopathy.
UNLOCKING GENETIC FACTORS PREDICTING TYPE 2 DIABETES COMPLICATIONS FOR CLINICAL PRACTICE: THE FIELD STUDY
Funder
National Health and Medical Research Council
Funding Amount
$2,503,122.00
Summary
Heart disease, stroke, eye and kidney diseases in diabetes have both environmental and genetic predispositions. With over 5000 Australians with diabetes, this research in the FIELD study is to identify the important genetic contributors to these complications. It will explore how the genetic features cause disease and whether the most important ones can be screened for in simple blood tests. It will also examine whether the genetic damage of ageing is accelerated in diabetes.
I am an academic clinician who has a principal interest in all aspects of diabetes, especially treatment and complications, and who is also involved in studies of antimalarial pharmacology.
Conventional And Unconventional T Cells In Interstitial Kidney Disease
Funder
National Health and Medical Research Council
Funding Amount
$480,531.00
Summary
Acute damage to the kidney is a common life-threatening condition. Recent studies have shown that less well-studied types of immune cells contribute to kidney damage. However, how these cells enter and injure the kidney is unknown. In this project we will use a special microscope to look into the blood vessels of the kidney and visualise the cells inside kidney blood vessels in order to uncover their behaviour as they respond to acute inflammatory insult to the kidney.