Determining The Cellular Mechanism Underlying Diffuse Axonal Injury Following Brain Trauma
Funder
National Health and Medical Research Council
Funding Amount
$400,885.00
Summary
Traumatic head injury causes transient stretch injury to the nerve cell processes within the brain. This leads to a poorly understood series of cellular changes within nerve cells which may ultimately lead to their breakage and subsequent neurological disability. This project seeks to understand how this nerve cell damage forms, and explores new potential interventions which may protect the brain.
Buckle Up Safely: Pre-school Based Interventions For Appropriate Use Of Child Restraints.
Funder
National Health and Medical Research Council
Funding Amount
$731,552.00
Summary
Despite overwhelming evidence that child restraints dramatically reduce the risk of death and injury there are currently a large number of children globally who either do not use appropriate child restraints, or misuse them, contributing to the overwhelming burden of road traffic injury in children. This project, using rigorous methodology, will assess the efficacy of feasible, evidence based interventions aimed at increased use of appropriate restraints, and decreasing misuse.
THE ROLE OF RESIDENT MAST CELLS IN ISCHAEMIA-REPERFUSION INJURY OF SKELETAL MUSCLE.
Funder
National Health and Medical Research Council
Funding Amount
$226,320.00
Summary
NHMRC 209113 LAY DESCRIPTION Ischaemia reperfusion injury occurs in skeletal muscle when the blood-oxygen supply is cut off (ischaemia) and later restored (reperfusion). If the duration of ischaemia is short some of the muscle survives. However, when blood flow and oxygen are restored the muscle is subjected to more injury, which is thought to be caused by oxygen and-or white blood cells. This type of injury occurs in muscle which has been crushed, limbs that have been broken or traumatized, in ....NHMRC 209113 LAY DESCRIPTION Ischaemia reperfusion injury occurs in skeletal muscle when the blood-oxygen supply is cut off (ischaemia) and later restored (reperfusion). If the duration of ischaemia is short some of the muscle survives. However, when blood flow and oxygen are restored the muscle is subjected to more injury, which is thought to be caused by oxygen and-or white blood cells. This type of injury occurs in muscle which has been crushed, limbs that have been broken or traumatized, in replantation of amputated parts, in transplantation, after some surgical procedures and after microsurgical transfer of muscle. Once established there is no effective treatment. Our experiments show that a particular cell, the mast cell, and a particular molecule, nitric oxide, are involved in causing ischaemia reperfusion injury. However, the extent of their involvement is unknown. In this proposal we will investigate the effect of replacing mast cells into muscles, in a unique variety of mice which normally don t contain mast cells and are resistant to ischaemia reperfusion injury. In one group of mice we will put back normal mast cells and in a second group of mice we will put back mast cells that cannot produce the nitric oxide molecule. These experiments will determine, unambiguously, the extent of involvement of mast cells and mast cell-derived nitric oxide. In the second part of this proposal will carry out a time course study, using pharmacologically induced mast cell degranulation, to determine when the mast cells become injurious to skeletal muscle. These experiments will identify the period during which mast cell behaviour can be modulated in order to protect the muscle from ischaemia reperfusion injury. Determination of the role of mast cells, and an understanding of the timing during which they become injurious would provide a logical basis for optimizing drug therapy in clinical applications of these findings.Read moreRead less
Effective Management Of Acute Whiplash Injuries Requires A Pragmatic Approach: An RCT With Stratified Treatments
Funder
National Health and Medical Research Council
Funding Amount
$382,550.00
Summary
Whiplash injuries from a motor vehicle crash continue to incur substantial personal and financial costs to the community and the insurance industry. The current approaches to an acute whiplash injury in Australia and internationally have failed to lessen the rate of how many people develop chronic neck pain. Between 40 and 60% still have pain 6 months after injury. Motor Accident Insurance Commission (Qld) figures indicate that 20% of patients with chronic whiplash account for 60% of the costs. ....Whiplash injuries from a motor vehicle crash continue to incur substantial personal and financial costs to the community and the insurance industry. The current approaches to an acute whiplash injury in Australia and internationally have failed to lessen the rate of how many people develop chronic neck pain. Between 40 and 60% still have pain 6 months after injury. Motor Accident Insurance Commission (Qld) figures indicate that 20% of patients with chronic whiplash account for 60% of the costs. Transition from an acute to a chronic condition must be prevented. A new direction in management in the acute stage is urgently required as once the pain has become chronic, it is difficult to help. This research will conduct a novel randomised controlled trial for acute whiplash. It will test individually prescribed multi-professional management against usual care with the aim to lessen the numbers who go on to develop chronic pain. It will be the first clinical trial that acknowledges from the outset that the whiplash injuries and affects people in different ways. Our previous research with acute whiplash patients has documented the variations in presentation from physical, physiological and psychological perspectives. In this trial, management will be prescribed as directed by measurable pain, muscle and psychological impairments in the individual, rather than regard all patients as the same as in other trials. This trial will offer individualised treatments; medical, physiotherapy and-or psychological using an empirically derived treatment algorithm. Cost-effectiveness of the program will be evaluated against that incurred during usual care. It is predicted that early multi-professional management will be less expensive in the long term than existing approaches. This RCT stands to extend knowledge in the management of whiplash associated disorders (WAD).Read moreRead less
Physiotherapist Led Stress Inoculation Intervention Integrated With Exercise For Acute Whiplash Injury
Funder
National Health and Medical Research Council
Funding Amount
$518,960.00
Summary
Physical and mental health outcomes following whiplash injury due to a road traffic crash are poor. Early stress system responses are associated with poor recovery. This study will investigate the effectiveness of a physiotherapist led stress inoculation intervention integrated with currently recommended exercise rehabilitation to improve health outcomes after whiplash injury.
Pre-clinical Evaluation Of Nano-membrane Dressings To Promote Wound Healing
Funder
National Health and Medical Research Council
Funding Amount
$188,600.00
Summary
This project will investigate whether a novel type of wound dressing can promote faster wound healing and reduce scarring. Time taken to heal is one of the best predictors of whether a wound will heal with significant scarring. The faster wounds heal the better. We have identified a new dressing with specific nano-scale pores that may promote faster healing. This dressing will be tested in the best model of human wound healing with the potential to progress to clinical trials if successful.
Whiplash Injury: Classification, Prediction And Directives For Improved Management Strategies.
Funder
National Health and Medical Research Council
Funding Amount
$331,674.00
Summary
Whiplash is a costly condition with many people developing chronic symptoms. This research aims to improve the diagnosis and classification of the condition from the time of injury until either recovery or the development of persistent pain. This will facilitate the early identification of those at risk of poor recovery and will lay the foundations for the development of improved early management, particularly in primary care.
Hypothermia Prior To Decompression For Treatment Of Acute Spinal Cord Injury
Funder
National Health and Medical Research Council
Funding Amount
$294,163.00
Summary
In spinal cord injuries, the cord is compressed as a result of vertebral injury. Urgent relief of compression improves outcome, however, is difficult because of the complexity of pre-surgical management. Our data demonstrate that hypothermia stops compressive spinal cord injury, allowing decompression to be performed in a period that will benefit most patients. This project aims to undertake the studies necessary before beginning a human trial of hypothermia prior to decompressive surgery.