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.
Targeting Microvascular Dysfunction In Severe Malaria
Funder
National Health and Medical Research Council
Funding Amount
$871,923.00
Summary
In severe malaria blood vessels cannot make enough protective nitric oxide (NO). The gel-like lining of blood vessels (glycocalyx) is needed to produce NO, but this is damaged in some severe infections. We will test whether glycocalyx is lost in malaria and how it affects blood vessel NO and function in human volunteer infections and in patients with and without severe malaria. We will test whether a salt nitrite, can be used to safely increase NO and blood vessel function in severe malaria.
The SNORE-ASA Study: A Study Of Neurocognitive Outcomes, Radiological And Retinal Effects Of Aspirin In Sleep Apnoea
Funder
National Health and Medical Research Council
Funding Amount
$886,692.00
Summary
Sleep apnoea is very common in the elderly, but it is uncertain whether it leads to a decline in mental abilities as it can in the middle-aged. Apart from fatigue, sleep apnoea also causes mental decline by affecting brain blood supply. This may be preventable with aspirin. We will track 3,000 healthy elderly for 4 years, after testing for sleep apnoea. Half will take aspirin. We predict that mental ability will decline faster with sleep apnoea, and that aspirin will partly reverse this.
The Role Of Central Haemodynamics In Type 2 Diabetes Mellitus-related Brain Disease
Funder
National Health and Medical Research Council
Funding Amount
$899,704.00
Summary
Type 2 Diabetes Mellitus is associated with stiffening of major blood vessels which may allow the transmission of harmful pressure to the small vessels of the brain. This may in turn be responsible for damage to brain cells and a greater risk of dementia. This study will use state-of-the art techniques to test this theory. If true, it may open opportunities to reduce the risk of brain disease in diabetes by using therapies to reduce arterial stiffening.
Microvascular And Macrovascular Disease In Snoring And Obstructive Sleep Apnoea: A Mechanism For Increased Stroke Risk.
Funder
National Health and Medical Research Council
Funding Amount
$679,744.00
Summary
This project will address the important question of the vascular risk of stroke associated with snoring and obstructive sleep apnoea, by using retinal photography of the eye to directly visualise the vascular changes in the cerebral circulation. Retinal photography may provide a useful clinical tool to help reduce the risk of stroke in patients with snoring and sleep apnoea.
Inhibiting Tumour Growth By Targeting EphA3 And Disrupting Tumour Stromal And Vascular Microenvironment
Funder
National Health and Medical Research Council
Funding Amount
$645,136.00
Summary
Tumours consist of cancer cells, tumour blood vessels and connective tissue, all of which are different to normal tissues. Many of the cells making up tumour vessels and connective tissue are recruited, during initial growth and subsequent spreading of tumours, from the bone marrow. Our research will examine the presence and function of the EphA3 receptor on these cells during tumour development and assess how our anti-EphA3 antibody inhibits tumour growth by targeting stroma and vasculature.