Plasma Activated Hydrogel Therapy For Combatting Antimicrobial Resistance In Chronic Wounds
Funder
National Health and Medical Research Council
Funding Amount
$755,023.00
Summary
The aim is to advance wound care using electrical ionised gas discharge (plasma) to deliver antimicrobial and healing agents through tailored hydrogel dressings into wounds. The technology will be configured for real-world wounds and clinical settings and its antimicrobial delivery system will be optimised to eradicate all wound pathogens and prevent re-infection. The technology has potential to revolutionise chronic wound care and alleviate the growing problem of antimicrobial resistance.
Randomised Controlled Trial Of Surgical Skin Preparation For Prevention Of Superficial Wound Complications In Prosthetic Hip And Knee Replacement Surgery
Funder
National Health and Medical Research Council
Funding Amount
$403,128.00
Summary
The demand for prosthetic joint replacement surgery will double over the next decade. Complications involving the surgical wound are a devastating complication of this surgery. This randomised controlled trial aims to investigate whether skin cleansing prior to surgical incision with alcoholic iodine reduces the number of patients with superficial wound complications when compared to alcoholic chlorhexidine. The study will be performed in patients undergoing orthopaedic joint replacement surgery ....The demand for prosthetic joint replacement surgery will double over the next decade. Complications involving the surgical wound are a devastating complication of this surgery. This randomised controlled trial aims to investigate whether skin cleansing prior to surgical incision with alcoholic iodine reduces the number of patients with superficial wound complications when compared to alcoholic chlorhexidine. The study will be performed in patients undergoing orthopaedic joint replacement surgery: a high volume, high cost surgery.Read moreRead less
The Biology Of Staphylococcus Epidermidis Biofilm Formation On Silicone Implantable Medical Devices And The Role Of Implant Surface Antibiotic Technology In The Prevention Of Bacterial Biofilm In And Animal Model
Funder
National Health and Medical Research Council
Funding Amount
$113,322.00
Summary
Hospital acquired infections continue to rise with over 60% occuring in patients with medical implants. Infections are due to skin bacteria forming a microscopic slime, or biofilm, around the implant. Biofilm infection is only diagnosed after implant removal, responds poorly to antibiotics, and can cause implant failure, such as joint loosening & bone infection in joint replacements and breast deformity with silicone implants. This project uses an animal model to evaluate different surface treat ....Hospital acquired infections continue to rise with over 60% occuring in patients with medical implants. Infections are due to skin bacteria forming a microscopic slime, or biofilm, around the implant. Biofilm infection is only diagnosed after implant removal, responds poorly to antibiotics, and can cause implant failure, such as joint loosening & bone infection in joint replacements and breast deformity with silicone implants. This project uses an animal model to evaluate different surface treatments to prevent bacterial biofilm formation.Read moreRead less
Management Of Burn Injury: Fluid Dynamics And Antibiotic Pharmacokinetics
Funder
National Health and Medical Research Council
Funding Amount
$342,375.00
Summary
It is well known that major burns, as well as being relatively common injuries, are notoriously difficult to manage. Patients exhibit significant variability due to a combination of anatomic, physiologic, hormonal and immunologic alterations occurring both at the wound site and, more importantly, in other body compartments and vital organ systems. Skin burn injury results in the release of multiple inflammatory mediators in addition to significant fluid loss. The distribution of inflammatory med ....It is well known that major burns, as well as being relatively common injuries, are notoriously difficult to manage. Patients exhibit significant variability due to a combination of anatomic, physiologic, hormonal and immunologic alterations occurring both at the wound site and, more importantly, in other body compartments and vital organ systems. Skin burn injury results in the release of multiple inflammatory mediators in addition to significant fluid loss. The distribution of inflammatory mediators and wound bacteria to central organs can cause complex physiological changes that may lead to multiple organ failure, with serious infections occurring in around 50% of patients with serious burns. Antibiotic distribution kinetics, such as bioavailability, clearance, volume of distribution, elimination half-life and unbound fraction in plasma can be significantly altered in burn patients. Without detailed knowledge of changes and relationships between factors such as wound pH, tissue oxygenation, protein concentrations of fluid leaked from the local wound microvasculature, tissue binding, oedema and changes in burned and non-burned tissue induced by resuscitation therapies, the optimisation of both local and systemic infection contriol therapies can hardly be expected to advance. This project aims to determine how changes the physiology of burn patients, in particular in the burn wound environment, affect antibiotic penetration and distribution into tissues. We also believe that these changes will vary between patients and are aiming to determine whether certain parameters can be used to give an indication of the best antibiotic dosing regimens for individual patients.Read moreRead less
Improving The Pre-hospital Treatment And Acute Management Of Burned Children
Funder
National Health and Medical Research Council
Funding Amount
$359,942.00
Summary
Children’s burns are physically and psychologically debilitating and are a huge burden for the children themselves, their families and the Australian health care system. My work will determine exactly what conditions are required to cause burns so that we can act to prevent them. I will also develop more effective first aid treatment and new treatments to improve burn wound healing.
This project aims to improve the acute treatment of children with burn injuries through developing more effective and novel treatments and understanding the conditions required for burn injuries to occur.
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.
Development Of A Novel Drug For Chronic And Infected Wounds
Funder
National Health and Medical Research Council
Funding Amount
$482,362.00
Summary
Chronic wounds affect more than 9 million people worldwide and demand for wound care is increasing. The annual cost to healthcare systems in the US and Australia in treating such wounds is US$25 billion and AU$3 billion, respectively, and there is urgent need for more effective approaches.