I am a pulmonary physician-gene therapist persuing new therapies for pulmonary vascular disease, lung cancer and mesothelioma, COPD and lung transplant rejection
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.
A Novel Strategy Targeting Quorum Sensing Molecules And Catalase Function To Block Pseudomonas Aeruginosa Lung Infection
Funder
National Health and Medical Research Council
Funding Amount
$451,118.00
Summary
Pseudomonas aeruginosa causes serious infections, particularly in those with Cystic Fibrosis, immunocompromise, serious burns or long term catheters. We will use a unique strategy to target virulence factors that will assist in clearing acute infection, prevent establishment of new chronic infections, and potentially reduce severity of established chronic infections. It has the potential to make antibiotic therapy more effective and lessen the extent of antibiotic therapy required.
Quorum Sensing Signal Molecule Modulation Of Immunity: Role In Host Responses To P. Aeruginosa Lung Infection
Funder
National Health and Medical Research Council
Funding Amount
$251,014.00
Summary
Pseudomonas aeruginosa is a bacterium that causes serious infections in humans, particularly those with Cystic Fibrosis, or who are immunocompromised, suffering serious burn injuries or have long term catheters. This study will investigate how P. aeruginosa may be able to increase its virulence by producing molecules known as Quorum Sensing Signal Molecules (QSSM). We believe the production of these QSSMs by this bacterium enables them to affect how the host responds by affecting their immune sy ....Pseudomonas aeruginosa is a bacterium that causes serious infections in humans, particularly those with Cystic Fibrosis, or who are immunocompromised, suffering serious burn injuries or have long term catheters. This study will investigate how P. aeruginosa may be able to increase its virulence by producing molecules known as Quorum Sensing Signal Molecules (QSSM). We believe the production of these QSSMs by this bacterium enables them to affect how the host responds by affecting their immune system. We will be investigating how this QSSM may suppress immunity and what influence this has on both the severity of infection and the potential for development of chronic infection. The study will first of all determine where the QSSM exerts its effects (that is, can it escape from the site of infection to affect other host sites) and this will direct us in how we may learn more about the way it can affect the host during an infection. We will investigate the direct affects of QSSM on acute and chronic types of P. aeruginosa lung infection and then from this, determine if the outcome exacerbates a subsequent infection. The work is significant in that a knowledge and understanding of these virulence factors will assist in the design of better therapeutic and prophylactic strategies for both prevention of infection in susceptible individuals and treatment of those that suffer from chronic infection.Read moreRead less
Mechanisms Underlying Acute Changes In Lung Function And Airway Responsiveness Following Respiratory Viral Infections
Funder
National Health and Medical Research Council
Funding Amount
$444,878.00
Summary
This study will investigate the mechanisms responsible for the increased airway responsiveness seen during respiratory viral infections to the common viruses of influenza (flu) and respiratory syncytial virus (RSV). Respiratory viral infections alter lung function and increase airway responsiveness in man. In addition, respiratory viral infections early in life are a risk factor for the subsequent development of asthma. The mechanisms responsible for this are unknown. Both the infecting virus an ....This study will investigate the mechanisms responsible for the increased airway responsiveness seen during respiratory viral infections to the common viruses of influenza (flu) and respiratory syncytial virus (RSV). Respiratory viral infections alter lung function and increase airway responsiveness in man. In addition, respiratory viral infections early in life are a risk factor for the subsequent development of asthma. The mechanisms responsible for this are unknown. Both the infecting virus and host factors, such as age of infection, gender and genetic predisposition, are likely to be important. OUTCOMES and SIGNIFICANCE: These studies will provide a comprehensive assessment of the effects of acute viral respiratory infections on lung function and airway responsiveness using cutting edge techniques developed in our labs. The results will provide new insights into how these infections cause lung disease and may provide clues for new approaches to prevent the adverse effects of these common respiratory viral infections.Read moreRead less