The Effect Of Stress/strain And Fatigue Fracture Sites On Durability Of Modular Aortic Endografts And Arterial Walls
Funder
National Health and Medical Research Council
Funding Amount
$300,919.00
Summary
Aneurysmal disease is an age related phenomenon. The mean life expectancy of western populations has doubled in 100 years because of the reduction in deaths from preventable and treatable diseases, and prolongation of life with chronic and incurable diseases. The older community (>65 years) continues to be active and productive contrary to prior predictions. Aneurysmal disease has emerged as a result of the changing pattern of diseases in the community. As with many other diseases, prophylaxi ....Aneurysmal disease is an age related phenomenon. The mean life expectancy of western populations has doubled in 100 years because of the reduction in deaths from preventable and treatable diseases, and prolongation of life with chronic and incurable diseases. The older community (>65 years) continues to be active and productive contrary to prior predictions. Aneurysmal disease has emerged as a result of the changing pattern of diseases in the community. As with many other diseases, prophylaxis against aneurysmal disease is the most effective approach since 80% of those that rupture will result in death. Endoluminal grafting provides a much less invasive procedure and provides an attractive and elegant alternative to open surgery. The danger is that structural strengths will be compromised with failures due to lack of strength and inadequate device durability. The most practical endografts are those that are built up from modules but vulnerable sites affected by fatiguing and disruptive forces are being identified, in particular where a tube divides into two outflow channels – the bifurcation - and joins. To improve and protect the current device, and enable sound engineering for future devices, we need to know the nature, magnitude and location of these forces. The existing collaboration with medical specialist, Cook Aust., the Advanced Fluid Dynamics Laboratory (CSIRO, Melb.) and University of WA combines a multidisciplinary team working towards the design and durability of the next generation of endoluminal devices and percutaneous insertions. While Australia is at the forefront of development, its current place in the market can only be maintained by further product development. Optimising and improving endoluminal grafts will reduce the suffering of major surgery while prolonging a higher quality of life with a much less invasive procedure whose long-term effectiveness, and thereby acceptance is dependent upon reliable durability.Read moreRead less
Developing Improved Management For Peripheral Artery Diseases
Funder
National Health and Medical Research Council
Funding Amount
$569,219.00
Summary
~1 million Australians have peripheral artery disease. The current application is for a Practitioner Fellowship to support my research aimed at improving care of artery disease. The aim of the work is to develop improved management approaches for patients with blocked and weakened arteries. This work is particularly important given the recognised management deficiencies for patients with artery disease and the relative little research being undertaken in this area.
Assessment And Prediction Of Blood Flow Dynamics In Congenital Aortic Abnormalities Using Image-based Computer Modelling And Wave Intensity Analysis
Funder
National Health and Medical Research Council
Funding Amount
$390,925.00
Summary
Severe aortic abnormality is a serious problem in many infants with congenital heart disease, but it is often unclear what type of treatment will optimise blood flow and minimise the risk of later complications. This study aims to harness recent developments in blood flow modelling, magnetic resonance imaging and advanced blood flow analysis techniques to determine the factors that lead to complications in these children, thereby providing crucial information for improving treatment strategies.
Optimising Human Vascularisation And Liver Tissue Engineering Models To Develop Functional Bio-artificial Human Liver Tissue
Funder
National Health and Medical Research Council
Funding Amount
$124,761.00
Summary
This project aims to grow human blood vessels and liver cells derived from human stem cells within a supporting scaffold to generate a “liver in a dish”. Transplantation involves connecting blood vessels in this structure to those of the recipient. This should restore function in mice with human-like liver disease, thereby demonstrating potential of this technology to be developed as an alternative to liver transplantation.
Minimal Structural Strength Required In Endoluminal Devices For Aortic Aneurysms: Mechanisms Of Rupture When They Fail.
Funder
National Health and Medical Research Council
Funding Amount
$102,794.00
Summary
Aneurysmal disease is an age related phenomenon. The mean life expectancy of western populations has doubled in the last 100 years mainly because of the reduction in deaths from occlusive cardiovascular disease. Aneurysmal disease has emerged as a result of the changing pattern of diseases in the community. The impact of this work would be to improve minimally invasive, effective prophylaxis against aneurysm of the abdominal aorta since 80% of those that rupture will result in death. Endoluminal ....Aneurysmal disease is an age related phenomenon. The mean life expectancy of western populations has doubled in the last 100 years mainly because of the reduction in deaths from occlusive cardiovascular disease. Aneurysmal disease has emerged as a result of the changing pattern of diseases in the community. The impact of this work would be to improve minimally invasive, effective prophylaxis against aneurysm of the abdominal aorta since 80% of those that rupture will result in death. Endoluminal grafting provides a much less invasive procedure and provides an attractive and elegant alternative to open surgery. The general drive in this field is towards miniaturisation. The danger is that structural strengths will be compromised with early failures due to lack of strength; and late failures due to inadequate device durability. This application proposes the development of a collaborative venture with the Department of Vascular Surgery, Royal Perth Hospital, Cook R and D (WA), the Advanced Fluid Dynamics Laboratory (CSIRO, Melbourne) and Centre for Health Services Research (University of WA) to investigate the dynamic flow forces involved in aneurysms of the abdominal aorta. It combines together expertise and facilities to examine the forces acting upon endoluminal stent grafts in pulsatile high pressure environments, the impact on the design, patency, effectiveness and longer-term outcomes. The multidisciplinary team provides a comprehensive approach for this developing area of high technology surgery throughout Australia and internationally. The benefits of this study will directly influence the design and durability of the next generation of endoluminal devices and percutaneous insertions. While Australia is at the forefront of development, its current place in the market can only be maintained by further product development.Read moreRead less
The Role Of Dysregulated VEGFs In Lymphatic And Non-lymphatic Vascular Malformations
Funder
National Health and Medical Research Council
Funding Amount
$389,486.00
Summary
Vascular malformations are abnormal growths of blood vessels that affect hundreds of children born in Australia every year. They range from small birthmarks to large destructive growths that cause chronic pain, bleeding and major deformity. This is the largest ever study to systematically look for the biological drivers that cause these growths so that drug treatments will ultimately be able to replace surgery as the first line treatment.
A Trial To Assess A New Therapy For Artery Weakening
Funder
National Health and Medical Research Council
Funding Amount
$1,105,894.00
Summary
Approximately 5% of men and 1% of women aged over 60 years develop weakening of the main abdominal artery. Currently the management of artery weakening is focused on surgery with no effective medications available. In this trial we will examine the value of a promising drug therapy. If proved effective this medication could reduce the requirement for surgery by controlling artery weakening at an early stage in its development.
Optimising Islet Transplantation With Vascularized Tissue Engineering Chambers
Funder
National Health and Medical Research Council
Funding Amount
$451,651.00
Summary
Diabetics have high blood sugar levels because cells in the pancreas known as islets produce too little of the hormone insulin. Most diabetics need daily insulin injections to maintain normal blood sugar levels. Transplanting islets is the most promising way to treat type 1 diabetes, but, apart from the obvious difficulty of rejection of foreign islets, several major problems remain: (1) there are insufficient pancreata (and therefore islets) for transplantation; and (2) the efficiency of delive ....Diabetics have high blood sugar levels because cells in the pancreas known as islets produce too little of the hormone insulin. Most diabetics need daily insulin injections to maintain normal blood sugar levels. Transplanting islets is the most promising way to treat type 1 diabetes, but, apart from the obvious difficulty of rejection of foreign islets, several major problems remain: (1) there are insufficient pancreata (and therefore islets) for transplantation; and (2) the efficiency of delivery of surviving islet transplants is too low. In pilot studies we have grown a new living pancreatic organ in mice by inserting islets from genetically-related mice together with a structural protein matrix, growth factors and blood vessels inside a plastic chamber. The blood vessels maintain nutrition to the islet cells and simultaneously allow insulin to be released into the bloodstream, thus normalising the high blood sugar in diabetics. In Aim 1 of these experiments we will find the optimal way to grow mature islets in blood vessel-containing chambers in diabetic mice, focusing on (a) the best time to add islets to the chamber - 0, 1 or 2 weeks after establishment, (b) the minimum number of islets to effectively normalise blood sugar and (c) how long we can keep islets alive and functional in chambers, examining periods up to 12 months. In Aim 2 we will test the ability of islet stem cells (provided by our co-investigators at Walter and Eliza Hall Institute, Melbourne) to survive in the chambers and to produce sufficient insulin to effectively lower blood sugar levels to normal in diabetic mice. In Aim 3 we will grow human islets in chambers in special diabetic mice that do not reject foreign tissue, in order to confirm similar behaviour of human islets in this controlled environment. Using this data, we hope to create a research model of functioning islets, that is accessible, retrievable and manipulable, for the further study of diabetes and transplantation.Read moreRead less
Characterisation Of MiRNAs That Regulate Vascular Leakage.
Funder
National Health and Medical Research Council
Funding Amount
$167,493.00
Summary
Vascular permeability or leak is a major problem in diseases such as cancer and in cardiovascular diseases . MicroRNAs (miRNAs) are small control genes that influence dveleopment and disease. We have identified a miRNA cluster in endothelial cells, the cells that line the blood vessels, that is important in the control of vascular leak. This project is focused on understanding the impact of these miRNAs in disease.