Investigating the functional interaction between vasopressin and angiotensin receptors. Kidney disease resulting from diabetes is a major health issue for Australians, and indigenous Australians in particular. This project aims to enable improved therapies to be developed, as well as better inform doctors regarding the use of potential combinations of existing pharmaceuticals to treat this condition.
Visualising vascular adaptation at the micro-scale in humans. The project aims to investigate fundamental issues in the mechanisms underlying vascular remodelling. It plans to develop novel optical scanning techniques to acquire high-resolution images of the cutaneous microvasculature, alongside absolute blood flow quantification. These novel tools would allow us to visualise and quantify functional and structural adaptations in the microvasculature in response to physiological stimuli such as h ....Visualising vascular adaptation at the micro-scale in humans. The project aims to investigate fundamental issues in the mechanisms underlying vascular remodelling. It plans to develop novel optical scanning techniques to acquire high-resolution images of the cutaneous microvasculature, alongside absolute blood flow quantification. These novel tools would allow us to visualise and quantify functional and structural adaptations in the microvasculature in response to physiological stimuli such as heat exposure and exercise. The non-invasive tool aims to enable us to assess adaptations in microvasculature health, improving our understanding of cardiovascular diseases and type 2 diabetes and potentially reducing the impact of costly and debilitating morbidities such as nephropathy, neuropathy, retinopathy, impotence and skin ulceration.Read moreRead less
Rapid mapping of genes for complex traits. This project will develop a new resource that will allow rapid identification of genes controlling complex traits. This world-leading resource will improve knowledge of diseases like diabetes and neurological diseases.