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.
A Randomised Controlled Trial Of Prophylactic Hypothermia In Severe Traumatic Brain Injury.
Funder
National Health and Medical Research Council
Funding Amount
$2,061,506.00
Summary
Patients who suffer from a severe head injury (traumatic brain injury) have a 50% chance of having severe long term neurological disability or death. Some of this damage occurs after the initial injury and may be reduced by artificially lowering the body termperature for up to 7 days to protect the brain from further damage. This project will determine if early, sustained cooling is safe and if it can improve the long term neurological outcomes of patients with traumatic brain injury.
Centre For Research Excellence In Advanced Cardio-respiratory Therapies Improving OrgaN Support (ACTIONS)
Funder
National Health and Medical Research Council
Funding Amount
$2,593,631.00
Summary
Artificial hearts and lungs are increasingly used to support our most critically ill patients. A greater understanding of patient-machine interaction is needed to maximise their life-preserving potential. ACTIONS CRE will research device-related complications, improve device components, develop clinical practice guidelines, train clinical and engineering researchers and explore the cost benefits of this technology ensuring all Australians can access state-of-the-art mechanical life support.
Re-EValuating The Inhibition Of Stress Erosions (REVISE): Gastrointestinal Bleeding Prophylaxis In ICU
Funder
National Health and Medical Research Council
Funding Amount
$2,955,164.00
Summary
Around 50,000 patients in Australian Intensive Care Units receive a drug called pantoprazole each year with the aim of preventing bleeding from the gut. Recent research suggests this practice is ineffective and may harm patients by increasing their risk of serious infections. We will perform a definitive study to determine whether the widespread use of pantoprazole is beneficial or harmful.
A Cluster Randomised Controlled Trial Of Selective Decontamination Of The Digestive Tract In Critically Ill Patients
Funder
National Health and Medical Research Council
Funding Amount
$4,113,393.00
Summary
Sepsis is the most common cause of death in intensive care patients. Selective Decontamination of the Digestive Tract (SDD) is a treatment to reduce the risk of infection and improve survival for these patients. Many trials suggest SDD works but there has not been widespread uptake due to concerns that SDD will increase antibiotic resistance.rates. This trial will provide a definitive answer. If SDD reduces mortality without increasing antibiotic resistance, the study will have a global impact.
Rapidly giving intravenous fluid to prevent or treat shock (fluid resuscitation) is one of the commonest treatments given to critically ill patients. Current guidelines recommend crystalloid solutions but it is unknown whether any particular crystalloid is better than others. This trial will determine whether the use of one of two crystalloid fluids, saline or PlasmaLyte, reduces the risk of organ injuries, such as kidney failure, and improves patients chances of surviving critically illness.
I will determine the efficacy and safety of crystalloid resuscitation fluids in conventional models of care. This is a fundamental and unresolved question in Intensive Care Medicine and will have an impact on clinical practice worldwide. I will also consolidate and enhance a series of projects to provide the next generation of clinician-researchers with high-quality research opportunities. These include projects in sepsis, traumatic brain injury, and endocrine function in critical illness.
Treatment Of Invasively Ventilated Adults With Early Activity And Mobilisation
Funder
National Health and Medical Research Council
Funding Amount
$1,467,137.00
Summary
The sickest patients in intensive care units (ICUs) receive prolonged, invasive support for their breathing. This is currently managed with complete bed rest, and results in severe muscle weakness, increased duration of hospital stay and poor recovery. We have found that early activity and mobilisation during invasive breathing support is safe and may improve survival and recovery. We will test early activity and mobilisation in a large randomised controlled trial of 750 ICU patients.
A Randomised, Placebo-controlled Trial Of Erythropoietin In ICU Patients With Traumatic Brain Injury
Funder
National Health and Medical Research Council
Funding Amount
$1,950,735.00
Summary
Patients who suffer a moderate or severe head injury (traumatic brain injury) have a 50% chance of having a long term neurological disability or death. Erythropoietin is a medication which encourages red blood cell formation but its other beneficial effects are likely to improve outcomes after traumatic brain injury. This study will examine the safety and effects of erythropoietin on long term neurological function in patients who have suffered a traumatic brain injury.
Sepsis is a major cause of hospitalization and ICU admission in Australia population corresponding to more than 15700 new cases each year. Every year more than 3000 people die from sepsis in Australia which is greater than the annual national road toll and breast, prostate or colorectal cancer. The research outlined in this proposal to study the effect of steroids and vitamin D to improve patient’s recovery from sepsis and also understand the genetic basis behind their ability to survive sepsis.