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Monitoring Of Leucocyte Cytokine-chemokines To Improve Morbidity And Rejection Rates In Lung Transplant Patients
Funder
National Health and Medical Research Council
Funding Amount
$373,973.00
Summary
Lung transplantation has become established therapy for many serious lung diseases. The early success rate is now very good, but at five years after transplant the survival rate is only around 60%. This problem is largely due to chronic graft failue as a result of chronic rejection or bronchiolitis obliterans syndrome. This project will specifically investigate the causes of BOS and thereby provide new information on how we may best treat this problem. An improvement in this area is critical.
Protecting The Endothelial Glycocalyx To Improve Transplant Rates And Outcomes
Funder
National Health and Medical Research Council
Funding Amount
$725,180.00
Summary
A tiny, previously overlooked, structure called the endothelial glycocalyx (EG) is now known to ‘waterproof’ blood vessels. This grant extends our exciting preliminary data in the field of lung transplantation, where we have shown that EG loss is the main cause of a poorly functioning organ, to develop new tests of lung and kidney function, as well as treatments to resuscitate marginal organs outside the body, so improving access to and the safety of transplantation.
Conquering The Final Frontier In Lung Transplantation - Mesenchymal Stromal Cell Therapy For Chronic Lung Allograft Dysfunction
Funder
National Health and Medical Research Council
Funding Amount
$1,887,790.00
Summary
Lung transplantation remains the only treatment option for an increasing number of Australians with end-stage lung disease, however long-term outcomes are severely compromised by the almost universal development of chronic rejection. Mesenchymal stromal cells (MSCs) hold great promise in treating rejection, and in a world-first we have recently demonstrated that this approach is safe. In another world-first, this randomized, controlled study will determine whether MSC therapy is effective.
I am a pulmonary physician-gene therapist persuing new therapies for pulmonary vascular disease, lung cancer and mesothelioma, COPD and lung transplant rejection
Circulatory Biomarkers For Idiopathic Pulmonary Fibrosis: Improving Patient Outcomes
Funder
National Health and Medical Research Council
Funding Amount
$841,625.00
Summary
We are going to find molecules in the blood that would improve the diagnosis and treatment of a lung condition called Idiopathic Pulmonary Fibrosis (IPF). The project brings together well characterized patients from the Australian IPF registry, blood samples we have collected from them and cutting edge technologies to complete this project.
The Link Between Vitamin D Deficiency And Chronic Lung Disease Is Due To Increased Airway Smooth Muscle
Funder
National Health and Medical Research Council
Funding Amount
$644,067.00
Summary
Vitamin D deficiency is a global public health problem. It is becoming increasingly evident that vitamin D deficiency increases the severity of chronic lung disease. In this study we propose to examine a mechanism that we think clearly explains this association. These studies are critical to understanding how deficiencies in key nutrients can impact on chronic lung disease and will provide the data necessary to guide public health policy to reduce the burden of disease in the community.
Mechanical Mobility Of The Thorax For Continuous Determination Of Lung Gas Volume
Funder
National Health and Medical Research Council
Funding Amount
$165,000.00
Summary
Percussion is a valuable clinical method for physical examination of parts of the body. A sharp tap (impulsive force) is applied to the body wall and the sound radiated in response is observed. This sound may be dull (over liver) or stony dull (pleural effusion), or resonant (over normal lung) or hyper-resonant (over bowel). While the variation in radiated sound is not fully understood, it is apparent that the presence of gas, which is highly compliant, increases mobility of the overlying tissue ....Percussion is a valuable clinical method for physical examination of parts of the body. A sharp tap (impulsive force) is applied to the body wall and the sound radiated in response is observed. This sound may be dull (over liver) or stony dull (pleural effusion), or resonant (over normal lung) or hyper-resonant (over bowel). While the variation in radiated sound is not fully understood, it is apparent that the presence of gas, which is highly compliant, increases mobility of the overlying tissue and allows it to resonate; where the sub-tissue is largely fluid, tissue mobility is low and the percussive sound is dull. Percussion is useful for examining the adult chest and lung, but cannot for example be applied in infant intensive care as only limited impulsive force can be used, and the adult finger, which is both a coupling device and sounding board, is too large. As well, percussion requires skill and quiet conditions. Accordingly, we developed a device to measure mobility of the chest and other tissues in real time. The VibroPulse applies a known low-level force to the body surface and records the resultant velocity induced in the surface. The force is generated by a vibrating mass set in motion by an electromagnetic motor driven by pseudo-random noise. Tissue mobility, defined as velocity-force, is derived simultaneously across the frequency range, providing an easily interpreted quantitative output unaffected by ambient noise. This proposal has two aims we can achieve in 1 year: (1) to continue evaluating VibroPulse sensitivity to tissue composition, using symmetrical percussive sites on the human chest and abdomen that are dull on one side and resonant on the other, and the chest of anaesthetised animals with experimentally induced pneumothorax and lung collapse, two life-threatening conditions for which percussion is a key diagnostic method, and (2) to engineer a small device from our bulky prototype that is suitable for clinical use, in infants and adults.Read moreRead less
Array-based Comparative Genomic Hybridisation In Lung Cancer
Funder
National Health and Medical Research Council
Funding Amount
$314,773.00
Summary
Lung cancer is the most frequent cause of cancer deaths in many Western countries, including ours. Lung cancer is the third leading cause of death of Australians and the fifth leading cause of burden of disease in Australia. In many cases, even with the best treatment available, the lung cancer spreads from where it starts, to other parts of the lung, chest and throughout the body. This eventually leads to death. We are interested in the factors that influence when and how lung cancer spreads. W ....Lung cancer is the most frequent cause of cancer deaths in many Western countries, including ours. Lung cancer is the third leading cause of death of Australians and the fifth leading cause of burden of disease in Australia. In many cases, even with the best treatment available, the lung cancer spreads from where it starts, to other parts of the lung, chest and throughout the body. This eventually leads to death. We are interested in the factors that influence when and how lung cancer spreads. With exposure to cancer-causing agents such as cigarette smoke, parts of the lung may suffer permanent damage that increases the risk of lung cancer. Many of these changes include the genes in air passages and lung tissue. In this study, we will use the latest technology in genetics called gene chips to study changes in genes that affect the spread of lung cancer. These gene chips can study a vast number of genes at once. In particular, we will whether there is an abnormal number of copies of genes in the lung cancer. We hope that this research study will provide new information about the diagnosis and treatment of lung cancer.Read moreRead less
Genomic Profiling To Predict Lung Cancer Metastases
Funder
National Health and Medical Research Council
Funding Amount
$323,500.00
Summary
Lung cancer is the most frequent cause of cancer deaths in many Western countries, including ours. Lung cancer is the third leading cause of death of Australians and the fifth leading cause of burden of disease in Australia. In many cases, even with the best treatment available, the lung cancer spreads from where it starts, to other parts of the lung, chest and throughout the body. This eventually leads to death. We are interested in the factors that influence when and how lung cancer spreads. W ....Lung cancer is the most frequent cause of cancer deaths in many Western countries, including ours. Lung cancer is the third leading cause of death of Australians and the fifth leading cause of burden of disease in Australia. In many cases, even with the best treatment available, the lung cancer spreads from where it starts, to other parts of the lung, chest and throughout the body. This eventually leads to death. We are interested in the factors that influence when and how lung cancer spreads. With exposure to cancer-causing agents such as cigarette smoke, parts of the lung may suffer permanent damage that increases the risk of lung cancer. Many of these changes include the genes in air passages and lung tissue. In this study, we will use the latest technology in genetics called gene chips to study changes in genes that affect the spread of lung cancer. These gene chips can study a vast number of genes at once. We hope that this research study will provide new information about the diagnosis and treatment of lung cancer.Read moreRead less