A Novel Device To Improve Renal Blood Flow In Cardiorenal Syndrome
Funder
National Health and Medical Research Council
Funding Amount
$198,900.00
Summary
The aim of this project is to assist in the development of a novel device to treat poor delivery of blood to the kidneys in conditions such as heart muscle weakness (chronic heart failure, CHF). Specifically we aim to build a prototype and test the device in a relevant animal model of CHF. Chronic heart failure is a major public health problem affecting >10% of the adult population over the age of 60 years. It is associated with high morbidity, mortality, frequent hospitalisation and major co ....The aim of this project is to assist in the development of a novel device to treat poor delivery of blood to the kidneys in conditions such as heart muscle weakness (chronic heart failure, CHF). Specifically we aim to build a prototype and test the device in a relevant animal model of CHF. Chronic heart failure is a major public health problem affecting >10% of the adult population over the age of 60 years. It is associated with high morbidity, mortality, frequent hospitalisation and major cost burden on the public health system. Weak heart muscle results in poor delivery of blood to the kidneys. Poor delivery to the kidneys activates circulating hormones which in turn further impair cardiac function by adverse effects on the heart. We have developed and patented a novel catheter based system for improvement of renal function via a purpose built device. Proof-of-concept studies have shown that the device should improve kidney blood flow in the setting of CHF. Given the huge public health problem of heart failure and the importance of the kidney in this setting, the commercial potential for a simple device that can be positioned via a catheter-based approach, permanently implanted is large. The device is currently being constructed by the Monash University Department of Engineering where expertise exists with regard to biomedical devices and materials engineering. A series of proof-of-concept studies will then be performed in sheep, as the vasculature of the sheep roughly approximates the dimensions of man. Sheep with CHF will have the device inserted percutaneously into the aorta. Measurements will be made of renal artery flow, relevant circulatory hormones and ultrasound of the heart at baseline (pre-deployment) and following deployment. We believe the above studies (should they be successful) will be sufficient to constitute definitive proof-of-concept and thus allow the device to be commercialised, most likely by a licensing arrangement with a device company.Read moreRead less
Novel Nanoparticle Composites For Molecular Probes In Diagnostic Imaging
Funder
National Health and Medical Research Council
Funding Amount
$170,716.00
Summary
Isotope labelled protein probes, eg. antibodies, are a valuable imaging tool in investigating patient disease. Their biological specificity is their great strength, however, detection sensitivity often limits their use. A novel nanoparticle developed at ANU can increase this signal by a million-fold in comparison with conventional methods of labelling. This approach suits a range of probes and will accommodate many of the isotopes already used in patient diagnostics and therapy.