Effects Of Pin Biomechanics, Coating Material And Surface Roughness On The Pin-bone Interface In External Repair
Funder
National Health and Medical Research Council
Funding Amount
$470,000.00
Summary
Some fractures require external fixation, anchored with metal pins in the bone fragments. The reatment is generally successful, although the pin tracts often loosen and become infected. This complication may jeopardise fracture healing and must be treated. The purpose of this project is to determine what aspects of pin design predispose to these problems at the pin-bone interface. Is it the way the pins are initially inserted, perhaps not tightly enough so that the pin is unstable, or perhaps to ....Some fractures require external fixation, anchored with metal pins in the bone fragments. The reatment is generally successful, although the pin tracts often loosen and become infected. This complication may jeopardise fracture healing and must be treated. The purpose of this project is to determine what aspects of pin design predispose to these problems at the pin-bone interface. Is it the way the pins are initially inserted, perhaps not tightly enough so that the pin is unstable, or perhaps too tight, causing microcracks in the bone? Is it the material of the pin, which might be improved with a bioactive coating? Is it the surface roughness which causes different responses of bone cells? Would it help to have an antibiotic pin? This proposal is designed to answer these questions. The biomechanics of the pin will first be studied with computer models and then tested in the laboratory. The loosening and infection associated with different types of pin will then be studied biologically. The results of the study will clarify the roles of pin biomechanics, coating and surface roughness, leading to improvements in design and better outcomes in fracture patients.Read moreRead less
Development Of Monoclonal Antibody Therapy For Treating Wounds
Funder
National Health and Medical Research Council
Funding Amount
$573,354.00
Summary
Chronic wounds, diabetic ulcers, injuries in response to trauma, burns and scalds form a medical need which will only expand as the population ages and the diabetic epidemic grows. In our studies, we have shown that Flightless I (Flii), an actin-remodelling protein, is a negative regulator of wound healing. We are developing monoclonal antibodies as a new therapy for reducing Flii levels in wounds which leads to improved wound repair outcomes.
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.
Therapeutic Development Of A Novel EphA4 Antagonist For Spinal Cord Injuries
Funder
National Health and Medical Research Council
Funding Amount
$687,105.00
Summary
Spinal cord injuries impose a significant burden on patients and their carers. At present, there are no treatments for spinal cord injury that provide functional improvement. This research program will develop a novel therapeutic molecule, EphA4-Fc, which promotes axonal regeneration and delivers significant functional improvement. We will determine the most effective protocol for EphA4-Fc administration and the physiological and functional outcomes of these treatment regimes.
Development And Pre-clinical Evaluation Of A Novel Wound Dressing Treatment For Chronic Ulcers
Funder
National Health and Medical Research Council
Funding Amount
$125,040.00
Summary
Chronic leg ulcers are a common, painful and costly reality for many Australians, impacting on sufferers' mobility, social interactions and overall quality of life. This research is directed at developing a novel cost-effective wound dressing for treatment of this condition. This will be achieved through neutralising the ulcer's toxic proteolytic environment through an interactive wound dressing. This then will allow the body's own cells to promote wound healing.
Performance And Safety Testing Of The BioQ Cardiac Assist System In A Chronic Ovine Heart Failure Animal Model
Funder
National Health and Medical Research Council
Funding Amount
$142,800.00
Summary
This proposal will test a novel cardiac assist system in safety and performance studies using a chronic sheep heart failure model. This device has been tested in cardiovascular simulators and in an acute animal model showing attractive proof-of-concept data. Specifically, the device increased left coronary artery blood flow and reduced aortic pulse and mean pressures using our novel self-powered fully implantable stand alone device, a potential therapy treatment for heart failure.
Development Of Novel Methods For Non-invasive Measurement Of Cardiac Output And Lung Volume During Anaesthesia
Funder
National Health and Medical Research Council
Funding Amount
$257,970.00
Summary
In Australia approximately 2 million anaesthetic procedures are performed annually. Approximately one patient in 20,000 dies during or shortly after an anaesthetic from complications related to the anaesthetic itself, and as many as one in 170 suffers severe complications. Mortality and severe morbidity are often ultimately associated with lack of oxygen in the tissues. Oxygen is transported from the lungs to the tissues by the blood. The oxygen content of arterial blood is monitored by pulse ox ....In Australia approximately 2 million anaesthetic procedures are performed annually. Approximately one patient in 20,000 dies during or shortly after an anaesthetic from complications related to the anaesthetic itself, and as many as one in 170 suffers severe complications. Mortality and severe morbidity are often ultimately associated with lack of oxygen in the tissues. Oxygen is transported from the lungs to the tissues by the blood. The oxygen content of arterial blood is monitored by pulse oximetry during every anaesthetic, but blood flow is not. Cardiac output is measured in only a very small proportion of anaesthetised patients using intravenous catheters that pass through the heart to the lungs. This procedure is invasive and is associated with significant morbidity and mortality. At present there is no easy way to monitor cardiac output non-invasively during anaesthesia. Our proposed research project, currently underway in conjunction with an industrial partner, is aimed at the development of a reliable, rapidly repeating, non-invasive method for monitoring total cardiac output and lung volume in every patient who has an anaesthetic. The purpose of the new monitor is to ensure that potential problems with oxygen supply to the tissues are detected and corrected promptly. Our new monitoring technique is computer-controlled, can function without intervention by the anaesthetist and has very few side-effects. It can be added to any anaesthetic machine. Such a measurement technique is likely to have an impact on anaesthesia similar to that of pulse oximetry in the 1980's, and, if suitably adapted, is likely to find applications in other fields, such as intensive care, sports medicine, the respiratory function laboratory and in veterinary medicine.Read moreRead less