The Australian Research Data Commons (ARDC) invites you to participate in a short survey about your
interaction with the ARDC and use of our national research infrastructure and services. The survey will take
approximately 5 minutes and is anonymous. It’s open to anyone who uses our digital research infrastructure
services including Reasearch Link Australia.
We will use the information you provide to improve the national research infrastructure and services we
deliver and to report on user satisfaction to the Australian Government’s National Collaborative Research
Infrastructure Strategy (NCRIS) program.
Please take a few minutes to provide your input. The survey closes COB Friday 29 May 2026.
Complete the 5 min survey now by clicking on the link below.
Hyperpolarized Helium MRI To Quantify Regional Lung Damage And Ventilation For Improvement Of Recruitment Strategy.
Funder
National Health and Medical Research Council
Funding Amount
$455,160.00
Summary
Many lung injuries need mechanical ventilation to reopen collapsed lung airspaces and supply oxygen to the patient. This study uses two methods to monitor the lungs during ventilation: Hyperpolarised helium MRI to image the airspace, and electrical impedance tomography to measure lung volume. This information will allow adjustment of ventilator pressure to maximize oxygen transfer without increasing lung damage. Quicker repair of lung damage and patient recovery are the benefits of this study.
Does Increased Non-Linear Behavior Caused By Dynamic Variables Increase Ventilatory-Induced Lung Injury (VILI)?
Funder
National Health and Medical Research Council
Funding Amount
$109,625.00
Summary
Acute lung injury (ALI) is precipitated by a variety of different insults, either directly to the lung or elsewhere to the body. Approximately 50% of the patients die. ALI is characterized by an increase in the leakiness of the barrier that normally separates the blood from the airspaces. The fluid which consequently floods the airspaces not only makes it difficult for patients to adequately obtain oxygen, but also dramatically increases the work of breathing by changing the surface forces withi ....Acute lung injury (ALI) is precipitated by a variety of different insults, either directly to the lung or elsewhere to the body. Approximately 50% of the patients die. ALI is characterized by an increase in the leakiness of the barrier that normally separates the blood from the airspaces. The fluid which consequently floods the airspaces not only makes it difficult for patients to adequately obtain oxygen, but also dramatically increases the work of breathing by changing the surface forces within the lungs. As a result, the patients must be mechanically ventilated. However, the very act of using a positive pressure to inflate the lungs often creates further damage, either through repeated opening and closing of collapse tissue or through its over distension. Ventilatory-induced lung injury (VILI), in itself is estimated to contribute to ~30% of the mortality. The best way shown to minimize VILI is through the use of small programmed breaths so as not to overinflate the lungs while still allowing adequate gas exchanges, superimposed upon a background pressure, in order to pre-inflate the lungs and prevent them from repeatedly collapsing. A remaining problem is that just as a rubber band changes its elasticity as it is stretched, so too the lung changes its mechanical properties during distension. Moreover, the lung is considerably more complex since different regions have different elasticities, which change differentially as air flows in and out of them. Airflow in turn depends on regional differences in the location, size, and number of conducting airways. Indeed, we have recently shown for the first time that dynamic changes in lung mechanics may contribute to VILI in patients, despite the use of safe ventilation modalities. This application proposes to examine the extent to which dynamic changes in lung mechanic contribute to VILI in an animal model, as a prelude to more costly, large scale clinical trials aimed at improving mortality.Read moreRead less
Modulating COVID-19 Disease By Targeting Virus And Virus-induced Responses Through Pharmaceutical And Mechanical Ventilation Strategies: SARS-CoV-2 S-protein, ACE2 And TMPRSS2
Funder
National Health and Medical Research Council
Funding Amount
$628,856.00
Summary
COVID-19 is a current global pandemic that is likely to be an on-going threat. We need a multipronged strategy to combat COVID-19, including therapeutic anti-virals and clinical practice management strategy. We will address both these points to define the mechanisms triggering disease, test existing drugs targeting androgens and modify the way doctors use ventilators to treat COVID-19 disease in the intensive care unit. Outcomes will have impact beyond COVID-19 for managing viral lung disease.
I am a developmental lung physiologist who specialises in understanding the factors regulating normal and abnormal lung development as well as the physiological transformation of the lung into an efficient gas-exchange organ at birth.
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.
Addressing Injury In A Population Health Framework: An Integrated Approach To Prevention, Acute Care And Rehabilitation
Funder
National Health and Medical Research Council
Funding Amount
$2,351,750.00
Summary
In Australia, injury is the leading cause of death and disability in people aged under 55 years. It is also a major cause of morbidity and mortality in older persons and, overall, accounts for a substantial proportion of acute hospital services and long-term rehabilitation needs. This grant will build an internationally competitive research team focused on reducing the public health burden of injury.
The Host Response To Highly Pathogenic Influenza Virus
Funder
National Health and Medical Research Council
Funding Amount
$237,981.00
Summary
Highly pathogenic influenza infections are a global health concern and cause global panic. There is no effective therapy available; for example and the death rate for H5N1 infection is ~60%. Here we propose to further understand host lung response to highly pathogenic influenza with a view to develop new therapies for this urgent issue.
Cell Stretch As A Physicochemical Secondary Stimulus In Initiating Lipopolysaccharide (LPS)-Mediated Acute Lung Injury
Funder
National Health and Medical Research Council
Funding Amount
$368,750.00
Summary
Acute lung injury (ALI) is an often fatal condition caused by direct or indirect injuries. When the injury occurs directly, eg pneumonia, lung cells release mediators that attract blood cells involved in defending the body. Once in the lungs, these cells are activated and engulf or release reactive molecules that destroy the invading organism a process known as inflammation. When the injury occurs indirectly, eg sepsis, ALI can arise from the spill-over of mediators created elsewhere in the body ....Acute lung injury (ALI) is an often fatal condition caused by direct or indirect injuries. When the injury occurs directly, eg pneumonia, lung cells release mediators that attract blood cells involved in defending the body. Once in the lungs, these cells are activated and engulf or release reactive molecules that destroy the invading organism a process known as inflammation. When the injury occurs indirectly, eg sepsis, ALI can arise from the spill-over of mediators created elsewhere in the body. Reactive molecules produced can damage the lung barrier separating the blood from the air. Consequently, fluid leaks into the airspaces making breathing difficult and hindering gas exchange. Gram (-) bacteria are the major cause of sepsis, pneumonia, and ALI. The inflammation is initiated by lipopolysaccharide (LPS), the major component of the bacterial cell wall. We have shown that LPS also changes breathing and the distribution of air and blood flow in lungs. This creates localised changes in cell stretch and the amounts of carbon dioxide (CO2) in the airspaces. Previously we showed that cell stretch releases surfactant , a substance that makes breathing easier. We now hypothesise that cell stretch is an important secondary stimulus in initiating ALI. We will use: 1. isolated lung cells to determine which cell types release mediators in response to LPS, and whether: * stretch stimulates their release * release is coordinated between the cell types * release is affected by the amount of CO2 2. isolated lungs to determine whether the pattern of ventilation, blood flow, and amounts of CO2 alter the release of the mediators, and whether these changes affect surfactant secretion and the ability to inflate the lungs. 3. animal models to also determine whether the pattern of respiration changes the course of the respiratory failure. Understanding the mechanisms that cause the disease will lead to better treatments.Read moreRead less
Lung Injury: Influence Of Sodium, Water, Albumin, Gravity And Body Position
Funder
National Health and Medical Research Council
Funding Amount
$117,331.00
Summary
Although patients with poor oxygenation often require mechanical ventilation, only therapies that reduce lung damage improve outcome whereas therapies that improve oxygenation have not been shown to improve outcome. This project will examine the role of two common interventions in critically ill patients, fluid resuscitation and posture change, on lung injury. It is anticipated this will lead to clinical trials that will further improve survival in ventilated patients with respiratory failure.