Early Retinal Vessel Changes In Diabetes And The Metabolic Syndrome
Funder
National Health and Medical Research Council
Funding Amount
$212,500.00
Summary
Diabetes mellitus affects a large proportion of adult Australians. Furthermore, many non-diabetic Australians are at high risk of developing diabetes (e.g., people with lesser glucose abnormalities, and those who are obese, have high blood pressure, or have high lipid levels). It has been suggested that diseases affecting small blood vessels (microvascular disease) in the body is closely related to the development of both diabetes and the pre-diabetes state. The current study will examine the re ....Diabetes mellitus affects a large proportion of adult Australians. Furthermore, many non-diabetic Australians are at high risk of developing diabetes (e.g., people with lesser glucose abnormalities, and those who are obese, have high blood pressure, or have high lipid levels). It has been suggested that diseases affecting small blood vessels (microvascular disease) in the body is closely related to the development of both diabetes and the pre-diabetes state. The current study will examine the relationship of microvascular disease in the retina (at the back of the eye) to diabetes, pre-diabetes status and diabetes complications. We will use a computer-imaging technique to measure the diameters of retinal blood vessel from digital photographs taken in 2,177 participants of the 1999-2000 Australian Diabetes, Obesity and Lifestyle (AusDiab) Study, a community-based survey of people aged 25 years and older examining risk factors and complications of diabetes. In the proposed study, we aim to answer the following questions: 1) Are changes in the retinal blood vessel diameter (e.g., narrowed or dilated vessels) associated with diabetes and pre-diabetes? 2) Are these retinal vessel changes related to obesity, high blood pressure and high lipid levels? 3) Are retinal vessel changes related to diabetes complications, such as heart disease, kidney disease, nerve problems and foot ulcers? 4) Do retinal vessel diameter changes predict people who will subsequently develop diabetes, irrespective of their risk factor profile? Using this well-characterized population, and existing digital retinal photographs, the proposed study will offer a unique and cost-effective opportunity to address important gaps in our understanding of how diabetes and pre-diabetes develop, and whether they are related to microvascular diseases. This may ultimately lead to new treatment and preventive approaches targeted at the small blood vessels in the body.Read moreRead less
Intervention To Reduce The Risk Of Diabetic Retinopathy And Early Adverse Retinal Changes In Type 1 Diabetes
Funder
National Health and Medical Research Council
Funding Amount
$1,294,846.00
Summary
The long term effects of young onset T1D may be devastating: diabetes is the leading cause of visual loss in young adults in Australia and other countries. We have the unique opportunity to investigate whether ACEI and statins will modify retinopathy through our collaboration with an already funded international multicentre trial. This study will treat adolescents for 4 years and will follow them for the next 5-10 years. We will use novel measures of retinal blood vessels size and fractals.
Type 2 Diabetic Renal Complications And Microvascular Injury: Novel Predictors Of Onset And Progression, Mechanisms Of Association With Cardiovascular Disease And The Benefits Of Fenofibrate.
Funder
National Health and Medical Research Council
Funding Amount
$84,448.00
Summary
We will investigate the mechanisms of diabetic complications related to kidney and blood vessel disease, focusing on identifying people at greater risk and ways to improve or prevent these complications. In addition, we will look at how diabetic kidney disease affects non-kidney related problems like heart disease and examine the benefit of fenofibrate on both. This greater understanding will aid further drug development in kidney and cardiovascular diseases.
This study aims to identify naturally occurring genetic variations between men which modify the impact of testosterone, the major male hormone, on men's health and medical care. This study will examine new factors which determine how much any particular man may gain benefit from testosterone exposure such as in muscle and bone development as well as suffer detrimental effects on cardiovascular and prostate diseases. This may clarify some new aspects of how men's health is determined as well as d ....This study aims to identify naturally occurring genetic variations between men which modify the impact of testosterone, the major male hormone, on men's health and medical care. This study will examine new factors which determine how much any particular man may gain benefit from testosterone exposure such as in muscle and bone development as well as suffer detrimental effects on cardiovascular and prostate diseases. This may clarify some new aspects of how men's health is determined as well as developing new, customized medical treatments for men.Read moreRead less
Thalassaemia is the most common blood disorder worldwide. In severe cases, life-long blood transfusions are needed to survive but complications including iron overload and bone disease can occur. Deferasirox, a drug used to treat iron overload has been linked to kidney stones and bone loss in these patients through increased loss of calcium in the urine. The purpose of this study is to investigate whether bone loss can be reversed by using a diuretic or an alternative iron chelator.
Identifying Novel Targets To Treat And Prevent Diabetic Complications
Funder
National Health and Medical Research Council
Funding Amount
$697,209.00
Summary
Diabetes is the leading cause for kidney failure requiring dialysis or transplantation. Diabetic patients also have a higher risk to suffer from heart attacks, stroke and amputations in particular once kidney damage occurs. Current strategies fail to completely protect patients from complications. My research will uncover knowledge gaps in our understanding of diabetes complications, identify new targets ultimately leading to urgently needed more effective treatments and prevention strategies to ....Diabetes is the leading cause for kidney failure requiring dialysis or transplantation. Diabetic patients also have a higher risk to suffer from heart attacks, stroke and amputations in particular once kidney damage occurs. Current strategies fail to completely protect patients from complications. My research will uncover knowledge gaps in our understanding of diabetes complications, identify new targets ultimately leading to urgently needed more effective treatments and prevention strategies to reduce the burden of disease in diabetes.Read moreRead less
The Role Of Specific Nox Isoforms In Diabetic Renal Disease And Atherosclerosis
Funder
National Health and Medical Research Council
Funding Amount
$460,396.00
Summary
Diabetes is increasing worldwide and in Australia. The majority of patients with diabetes eventually will develop kidney disease and will die of blood vessel complications such as heart attacks and stroke. Oxidative stress (the generation of free oxygen radicals that react quickly with other proteins in the body causing tissue damage) has been suggested to play an important role in kidney and blood vessel disease observed in diabetic patients. This proposal will try to identify and measure speci ....Diabetes is increasing worldwide and in Australia. The majority of patients with diabetes eventually will develop kidney disease and will die of blood vessel complications such as heart attacks and stroke. Oxidative stress (the generation of free oxygen radicals that react quickly with other proteins in the body causing tissue damage) has been suggested to play an important role in kidney and blood vessel disease observed in diabetic patients. This proposal will try to identify and measure specific proteins in the kidney and vessels that are involved in the production of oxidative stress. We aim to define which one of these proteins is the most important. We will assess in detail how these proteins work and which other factors are activated leading to tissue damage. The ultimate goal of these studies is to find new treatment options to decrease the production of harmful molecules in the kidney and blood vessel wall thereby reducing kidney failure, heart attacks, stroke and gangrene in diabetes. In our studies, we will use medications already used in patients to treat high blood pressure in diabetes. In preliminary studies we have shown that these drugs also reduce oxidative stress. Furthermore, we will use novel, more specific treatments that the harmful ptoteins. Through a collaboration with Professor Harald Schmidt and his group from Germany who have recently moved to Monash University in Melbourne we will have access to mice in which specific genes for harmful proteins have been knocked out. These mice when made diabetic will most likely develop less or no kidney and blood vessel damage. Our studies will help to identify the most important oxidative stress producing protein associated with kidney and vessel disease. This knowledge will lead to more effective and more potent treatments for patients with diabetes to prevent, stop or even improve kidney and blood vessel disease thereby reducing disability and death in this high risk group of patients.Read moreRead less
ADVANCE-ON: A Post-trial Observational Study Of ADVANCE
Funder
National Health and Medical Research Council
Funding Amount
$775,867.00
Summary
The ADVANCE (Action in Diabetes and Vascular Disease) study demonstrasted that intensive control of blood glucose only reduced kidney disease but that control of blood pressure reduced both cardiovascular and kidney disease. This 10-year post-trial follow up study will determine whether intensive control of blood glucose exerts cardiovascular benefits that emerge in the long term in patients with type 2 diabetes.