Stress Hyperglycaemia And Mortality In Critical Illness: Defining The Association And Underlying Mechanisms
Funder
National Health and Medical Research Council
Funding Amount
$125,526.00
Summary
The relationship between high blood sugar levels (hyperglycaemia) and mortality in critically ill patients remains an area of controversy with conflicting results between studies. This PhD thesis will attempt to resolve this by firstly evaluating whether relative hyperglycaemia as measured using a novel new measure better predicts mortality outcome in such patients; and secondly, attempt to establish possible mechanisms which contributes to this.
The Effect Of Androgen Replacement Therapy On Bone And Muscle Health In Men With Chronic Kidney Disease
Funder
National Health and Medical Research Council
Funding Amount
$122,714.00
Summary
Low testosterone (T) levels are common in men with poor kidney function. Low T is known to cause reduced energy, decreased strength and low libido. Normal T is also needed for healthy bones and muscles. Men with kidney disease are already at risk of fractures, poor strength and quality of life. However, there are few studies that look at replacing T to men with kidney failure. We will investigate how low T affects bone and muscle and assess how giving T can benefit bone, muscle and function.
I am a clinician scientist and nephrologist. My research involves preclinical and clinical translational approaches to identify new targets and develop novel treatments to prevent, reverse and retard the development and progression of diabetic complications.
Fenofibrate And Microvascular Events In Type 1 Diabetes (FAME 1) Trial
Funder
National Health and Medical Research Council
Funding Amount
$2,883,529.00
Summary
Diabetes is one of the commonest cause of blindness in adults. Vision loss, which is irreversible, is a most feared complication of diabetes. A blood fat lowering drug called fenofibrate, available in Australia, has been shown to reduce eye damage in people with Type 2 diabetes by 35-40%, and to prevent eye damage in Type 1 diabetic animal models. This study will evaluate the potential benefits of fenofibrate in 450 adults with Type 1 diabetes who have early diabetic eye damage.
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
Understanding Vasoactive Hormone Pathways In Diabetic Complications
Funder
National Health and Medical Research Council
Funding Amount
$453,750.00
Summary
High blood pressure damages tissues. In clinical practice blood pressure is measured in large arteries, such as the brachial artery in the arm. However, it is the pressure within the organ such as the kidney that actually causes the damage. In particular, the sieving apparatus of the kidney (called the glomerulus), is especially sensitive to the effects of pressure. In diabetes, the pressure within the glomerulus is high because its outflow valve (called the efferent arteriole) is tightly constr ....High blood pressure damages tissues. In clinical practice blood pressure is measured in large arteries, such as the brachial artery in the arm. However, it is the pressure within the organ such as the kidney that actually causes the damage. In particular, the sieving apparatus of the kidney (called the glomerulus), is especially sensitive to the effects of pressure. In diabetes, the pressure within the glomerulus is high because its outflow valve (called the efferent arteriole) is tightly constricted. Therefore even if blood pressure is thought to be normal when measured in the arm, it may still be excessively high within the kidney. Studies have already shown that lowering within-kidney pressure may have a major impact on the progression of kidney disease in diabetes. However, to date this reduction of within-kidney pressure has been sub-maximal. The planned studies will involve the use of new compounds which have more powerful effects in reducing the formation or action of hormones which promote constriction of vessels in the kidney leading to elevated pressure within the kidney. Furthermore, some of these very new agents can open up or dilate these kidney vessels thereby achieving excellent reductions in the pressure inside the kidney. The proposed studies aim to examine new strategies for preferentially lowering pressure within the kidney down to these ideal levels. These hormones also have other effects which could be relevant to non-kidney sites of injury in diabetes including blood vessels and the retina.Read moreRead less
Obesity And Its Metabolic Associations In Relation To Bariatric Surgery And Maternal-fetal Outcomes
Funder
National Health and Medical Research Council
Funding Amount
$140,949.00
Summary
My research will examine the effects of maternal obesity, diabetes and smoking on outcomes evidence at birth in the offspring. Bariatric surgery is the most effective means to achieve sustained weight loss in obese patients and may improve metabolic abnormalities and complications. My research will explore the benefits of bariatric surgery in obese patients with type 2 diabetes with or without the addition of a glucose-like peptite-1 (GLP-1) agonist, liraglutide.
Role Of Circulating Advanced Glycation End Products (AGEs) In Diabetic Nephropathy: Effect Of Benfotiamine Intervention
Funder
National Health and Medical Research Council
Funding Amount
$465,000.00
Summary
Advanced glycation products (AGEs) are compounds formed by the addition of sugars to amino acids (the building blocks of proteins). The addition of sugars to proteins induces biological changes that have been implicated in the development of diabetic complications, especially diabetic kidney disease. AGEs are a diverse group of compounds and to date the exact role that specific AGEs play in the causation of diabetic kidney disease is still unclear. However, new methods are now available that all ....Advanced glycation products (AGEs) are compounds formed by the addition of sugars to amino acids (the building blocks of proteins). The addition of sugars to proteins induces biological changes that have been implicated in the development of diabetic complications, especially diabetic kidney disease. AGEs are a diverse group of compounds and to date the exact role that specific AGEs play in the causation of diabetic kidney disease is still unclear. However, new methods are now available that allow the comprehensive quantification of individual AGE levels in blood. Our study involves the comparison of AGE blood levels, as a group or as specific AGEs with markers of diabetic kidney disease such as albumin (protein) excretion in the urine and the rate that the kidney filters the blood to form urine (glomerular filtration rate). Benfotiamine is a thiamine (vitamin B1) derivative that has been shown to decrease the formation of AGEs and to prevent kidney disease in diabetic animals. The present clinical study will assess whether benfotiamine has similar effects on AGEs and kidney disease in patients with type 2 diabetes. If successful, this study has the potential to provide a new treatment strategy for diabetic kidney disease in humans.Read moreRead less
The Role Of The Osteoblast In Mediating Glucocorticoid-Induced Metabolic Dysfunction
Funder
National Health and Medical Research Council
Funding Amount
$825,254.00
Summary
Glucocorticoids (GC) exceed most other drugs in terms of numbers of patients treated and indications. Preventing or attenuating the deleterious effects of GC on fuel metabolism is therefore of great clinical significance. Our studies will create new knowledge regarding the mechanisms of GC-induced diabetes and osteoporosis, and will contribute to the development of new approaches that are essential to tackle the pressing medical problem of GC-induced disease.