Understanding Local And Regional Determinants Of EDHF And NO Dysfunction In Resistance Arteries In Diabetes
Funder
National Health and Medical Research Council
Funding Amount
$771,295.00
Summary
Diabetes is a serious and increasing health burden worldwide. Most of the sickness and death associated is due to complications arising in the blood vessels. The inner lining of blood vessels in small arteries uses several different mechanisms to ensure proper blood flow, and in diabetes these are impaired. This study will reveal the cellular mechanisms involved and identify pathways for therapeutic intervention to alleviate the debilitating effects of small artery disease.
TARGETING ROS-INDUCED DAMAGE RESCUES THE DIABETIC HEART
Funder
National Health and Medical Research Council
Funding Amount
$487,669.00
Summary
Over 1 million Australians have diabetes. Many of these patients die from cardiovascular disease. We have identified free radicals as a major cause of decreased pumping function and impaired recovery from each heartbeat in the diabetic heart. Stronger antioxidant approaches and-or activation of protective protein pathways is a more effective treatment for reversing impaired function in the diabetic heart, preventing or delaying heart failure in patients with diabetes.
Non-neuronal ATP: Regulation Of Release And Action In The Bladder
Funder
National Health and Medical Research Council
Funding Amount
$451,553.00
Summary
Incontinence disorders are costly and debilitating. How the bladder signals the normal sensation of fullness as well as the urgent need to void urine (urgency) is still not fully understood. The signaling molecule ATP is released during bladder stretch. Using animal and human bladder, we will study how the bladder lining is involved in this signaling process, by measuring how bladder chemicals interact with stretch to modulate ATP release, and how ATP can influence nerve impulses to the brain.
Aberrant Oligosaccharide Processing Of Nox2-oxidase As A Mechanism Of Vascular Oxidative Stress In Atherosclerosis
Funder
National Health and Medical Research Council
Funding Amount
$552,565.00
Summary
Excessive production of free radicals by an enzyme called Nox2 may be a cause of artery disease leading to heart attacks and strokes. This study will identify whether the addition of sugarchains to Nox2 causes it to be expressed at the surface of cells allowing the free radicals it produces to exit the cell and cause damage to the blood vessel wall. Charaterising this new pathway of excessive free radical production may pave the way for new diagnostics and treatments for artery disease.
Targeting Arginase In Peripheral Arterial Occlusive Disease
Funder
National Health and Medical Research Council
Funding Amount
$243,945.00
Summary
Peripheral artery occlusive disease causes narrowing of large peripheral blood vessels which can result in severe pain, gangrene and stroke. Its prevalence is steadily increasing in western countries. This proposal aims to characterize the role of an enzyme (arginase) in PAOD and determine whether it may be a new drug target for treatment of this disease.
NOVEL CGMP-BASED THERAPIES PREVENT LEFT VENTRICULAR REMODELLING
Funder
National Health and Medical Research Council
Funding Amount
$533,433.00
Summary
Over 300,000 Australians are affected by heart failure. Current drugs for cardiac remodelling (the decline in heart pumping function and changed structure that precede heart failure) slow but not reverse disease progression. We have identified a new, nitrovasodilator-based therapy superior to those currently available. We propose it represents a more effective treatment for reversing abnormalities in both structure and function in the remodelled heart, preventing or delaying heart failure.
The Role Of Connexins In Blood Pressure Regulation: Use Of A Conditional Gene Expression System
Funder
National Health and Medical Research Council
Funding Amount
$583,767.00
Summary
Cell coupling through gap junctions is said to play an important role in regulating blood flow and blood pressure. However data obtained from mice, in which specific gap junctions are deleted, may be compromised by compensatory changes in other junctions. We have validated a new method for rapidly and reversibly altering gap junctions in adult mice with oral sugar. This technique will enable us to directly determine whether interference with cell coupling affects blood flow and blood pressure.
Neurochemicals In The Control Of Human Bladder Function
Funder
National Health and Medical Research Council
Funding Amount
$196,018.00
Summary
The problem of urinary incontinence has received little attention from the medical and scientific research community until the last 10-15 years. Urinary incontinence can cause severe distress and is a taboo subject, even though it affects 30-40% of women. Public figures speak out about their experiences with breast cancer or heart disease, but not about leakage of urine. Elderly people with incontinence are forced into nursing homes, with major costs to the community. Incontinence is a major cli ....The problem of urinary incontinence has received little attention from the medical and scientific research community until the last 10-15 years. Urinary incontinence can cause severe distress and is a taboo subject, even though it affects 30-40% of women. Public figures speak out about their experiences with breast cancer or heart disease, but not about leakage of urine. Elderly people with incontinence are forced into nursing homes, with major costs to the community. Incontinence is a major clinical problem: although over 800 new patients per annum are seen at our Pelvic Floor Unit, the waiting time for a first appointment is 14-15 weeks. There are four main types of urine leakage: - stress incontinence (weak pelvic floor muscles); - overflow incontinence (seen in men with prostatic hypertrophy); - sensory urgency (frequent, uncomfortable desire to urinate); and - detrusor instability (bladder muscle spasms with leakage). We are primarily interested in detrusor instability and sensory urgency, which cause 35% of incontinence in general, but up to 85% of cases in the elderly. Patients suffer from an urgent desire to visit the toilet frequently, and may leak urine if they cannot reach the toilet quickly. Unlike stress incontinence, it cannot be corrected by pelvic floor surgery. Drug treatment is often unsuccessful, with many unacceptable side effects. In our research group, we have found that the sensory nerve which convey the sensation of bladder fullness, are overabundant and display increased amounts of neurochemicals. Our studies in isolated bladder muscle from these patients have shown abnormalities in responsiveness. Thus bladder from women with urge incontinence is resistant to drugs which abolish contraction in normal bladder. In this project we plan to find out why such changes occur. We will use new techniques to study bladder nerves and the receptors which convey the message to contract the bladder muscle.Read moreRead less