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Gentamicin Vestibulotoxicity: Detection And Prevention
Funder
National Health and Medical Research Council
Funding Amount
$205,500.00
Summary
A powerful, life-saving and cheap antibiotic, gentamicin, has one potential serious permanent side-effect: loss of balance due to damage to the balance organs of the inner ears. Detected early, the inner ear damage can be reversed by stopping gentamicin. Until now there has been no way of monitoring inner ear balance at the bedside. We have now developed such a method and want to show that by monitoring inner ear balance of patients needing gentamicin we can detect damage at such an early stage ....A powerful, life-saving and cheap antibiotic, gentamicin, has one potential serious permanent side-effect: loss of balance due to damage to the balance organs of the inner ears. Detected early, the inner ear damage can be reversed by stopping gentamicin. Until now there has been no way of monitoring inner ear balance at the bedside. We have now developed such a method and want to show that by monitoring inner ear balance of patients needing gentamicin we can detect damage at such an early stage that stopping the drug and using another instead will allow the balance organs to recover by themselves.Read moreRead less
Antibiotics have different effects on our own bacterial ecology, with sometimes unexpected detrimental effects. In this project, we will study this in detail and particularly address the question of 'good' and 'bad' antibiotics and how to identify them. National antibiotic policy and the deployment of 'decontamination' strategies in the critically ill are directly related issues and we expect to inform these important policy debates.
BLING III: A Phase III Randomised Controlled Trial Of Continuous Beta-lactam Infusion Compared With Intermittent Beta-lactam Dosing In Critically Ill Patients
Funder
National Health and Medical Research Council
Funding Amount
$3,269,943.00
Summary
This Australian-led trial of global significance will provide definitive clinical evidence of the optimal method for treating patients with severe sepsis using beta-lactam antibiotics. The trial will compare whether continuous infusion of beta-lactam antibiotics improves outcomes for patients compared with standard intermittent dosing. The potential significance of this trial is that it may lead to a simple and cost-effective intervention to improve survival for patients with severe infections.
Management Of Refeeding Syndrome In Critical Illness: An AuSPEN Endorsed Multi-centre Clinical Trial
Funder
National Health and Medical Research Council
Funding Amount
$1,366,987.00
Summary
Critically ill hospitalised patients are frequently malnourished. When feeding is reestablished in malnourished patients, they often exhibit severe electrolyte imbalances and metabolic disturbances that can lead to slower recovery times, increased complications and even death. The purpose of this clinical trial is to investigate the benefits of a conservative approach of managing critically ill patients with refeeding syndrome.
Rapid Prediction Of Antibiotic Resistance In The Enterobacteriaceae: Making Use Of Restricted Diversity In Mobile Resistance Gene Pools
Funder
National Health and Medical Research Council
Funding Amount
$385,032.00
Summary
Immediate treatment of patients suffering life-threatening bacterial infections with effective antibiotics greatly improves their chances of survival, but antibiotic resistance increasingly complicates this treatment. Currently such resistance cannot be detected in time to help decide the best antibiotic to use. We aim to define a small set of the many known antibiotic resistance genes that can be used accurately predict resistance in rapid tests using modern detection systems.
A Phase IIb Randomised Controlled Trial Of Continuous Beta-lactam Infusion Compared With Intermittent Beta-lactam Dosing In Critically Ill Patients With Severe Sepsis
Funder
National Health and Medical Research Council
Funding Amount
$947,371.00
Summary
This randomised controlled trial aims to compare, in critically-ill patients with severe sepsis managed in the intensive care unit, whether the administration of beta-lactam antibiotics via continuous infusion improves outcomes for patients compared with standard intermittent dosing. The potential significance of this step-wise research program is that it may lead to a simple and cost-effective intervention to improve ICU-free days, clinical cure and survival for patients with severe infections.
This Fellowship will enable research into the basis for life-threatening infection in the critically ill, including severe pneumonia, septic shock and the complexities of antibiotic resistance in bacteria, as well as the translation of this research into practice (including rapid diagnostics).
The Generation Of High Quality Evidence In Critical Care Medicine Through Multicentre Randomized Controleld Trials And Its Translation Into Practice
Funder
National Health and Medical Research Council
Funding Amount
$240,121.00
Summary
This research program will establish new approaches to sepsis, traumatic brain injury, kidney protection, transfusion, post-operative care, sedation, antibiotics and mobilization of acutely ill patients. Experimental research will help understand why the kidney malfunctions during severe infection. Database investigations will identify of successful patterns of treatment and potential new fields of investigations. Informatics based studies will use electronic data to develop decision support sys ....This research program will establish new approaches to sepsis, traumatic brain injury, kidney protection, transfusion, post-operative care, sedation, antibiotics and mobilization of acutely ill patients. Experimental research will help understand why the kidney malfunctions during severe infection. Database investigations will identify of successful patterns of treatment and potential new fields of investigations. Informatics based studies will use electronic data to develop decision support systems to improve patient care.Read moreRead less