Bioactive And Biodegradable Scaffold And Novel Graft Source For The Repair Of Large Segmental Bone Defects
Funder
National Health and Medical Research Council
Funding Amount
$451,103.00
Summary
The treatment of large bone defects arising from trauma and tumour remains a challenge to orthopaedic surgeons. This project combines a well-established scaffold that can be custom-made to address patient specific requirements with a novel source of graft that can be harvested in significant volumes with minimal pain and morbidity. This novel tissue engineering approach will be evaluated in a previously established pre-clinical model that reflects the severity of challenging clinical scenarios.
A Study Of Various Bone Scaffolds In A Maxillary Sinus Model
Funder
National Health and Medical Research Council
Funding Amount
$61,711.00
Summary
This project investigates using animal derived and artificial bone in regions of the mouth that are deficient and not suitable for replacing missing teeth using dental implants. Traditional techniques of bone replacement require the use of a patient's own bone. These procedures are associated with post-operative morbidity and this bone is present in limited quantity. The use of these bone replacements may overcome these challenges and eliminate the need for using patient's bone.
The transplantation of healthy stem cells from a donor into a recipient with blood cancer (stem cell transplantation) is the most effective curative therapy for the majority of patients. Unfortunately this process results in unwanted, often fatal, side effects including infection, a rejection process known as graft-versus-host disease and in some patients, the leukaemia still recurs. This research will refine new treatments focused on overcoming these limitations and improving transplant outcome
Innovative Antimicrobial Treatments For Successful Bone Allografts
Funder
National Health and Medical Research Council
Funding Amount
$473,706.00
Summary
Bone healing sites are commonly infected, and this is associated with adverse clinical and significant socioeconomic outcomes. These studies will determine whether our novel antimicrobials can be used to reduce bone infections by studying the combination of antimicrobials and bone in laboratory and bone fracture studies whilst minimising the potential of developing antibiotic resistance.
Novel Biocompatible Nickel-free Shape Memory Alloy Scaffolds For Biomedical Applications
Funder
National Health and Medical Research Council
Funding Amount
$530,789.00
Summary
The current project is aimed at the development of a new class of novel biocompatible nickel-free shape memory alloy (SMA) scaffolds for metallic implant applications. The new scaffolds possess the ability to exert a mechanical force on the surrounding bones, and stimulate new bone tissue ingrowth, due to their shape memory effect, superelasticity and bone-mimicking porous structure. The outcomes from this project will provide innovative implant materials.
Antibiotic Loading Of Bone Allografts For The Prevention Of Peri-operative Infection
Funder
National Health and Medical Research Council
Funding Amount
$300,847.00
Summary
Bone is the second most often transplanted tissue after blood, with thousands of grafts done every year in Australia. Allograft bone (taken from another person) is used to replace bone removed due to cancer, but is prone to infection. Infected grafts must be removed, and can lead to amputation. We are developing a process to put antibiotics into allograft bone, to prevent infections from taking hold. Reducing infections can increase the success of limb salvage surgery for cancer patients.
The Role Of Dendritic Cells In Graft-versus-host Disease After Allogeneic Stem Cell Transplantation.
Funder
National Health and Medical Research Council
Funding Amount
$317,633.00
Summary
Allogeneic bone marrow transplantation (BMT) remains the most effect curative treatment for patients with a number of malignant conditions, especially leukemia. Graft-versus-Host Disease (GVHD) ocurrs when the newly transplanted bone marrow (which includes the immune system) recognises the transplant recipient as foreign and mounts an immune attack against patient tissues. GVHD is the major complication of BMT and is responsible for the death of up to half of the patients who receive this proced ....Allogeneic bone marrow transplantation (BMT) remains the most effect curative treatment for patients with a number of malignant conditions, especially leukemia. Graft-versus-Host Disease (GVHD) ocurrs when the newly transplanted bone marrow (which includes the immune system) recognises the transplant recipient as foreign and mounts an immune attack against patient tissues. GVHD is the major complication of BMT and is responsible for the death of up to half of the patients who receive this procedure. Research to date by Dr Hill and colleages has provided substantial detail on how and why this process occurs. This information has led to a number of advances in the field which are already improving patient survival after BMT. This includes a new type of bone marrow transplantation that uses a naturally ocurring growth factor (called a cytokine) to allow the collection of immature bone marrow cells from the blood of transplant donors. The transplantation of these cells rather than bone marrow appears to reduce the chance of dying during BMT and also improves the cure rates from the underlying leukemia. In addition, Dr Hill has developed a novel method for preventing GVHD using different types of naturally ocurring growth factors called cytokine shields that help protect patient tissue from attack by the immune system. It has recently become clear that the immune system is directed by a subtype of white cells called dendritic cells and Professor Hart at the Mater Medical Research Institute has been a pioneer in this field. As initiators of the immune system it is likely that dendritic cells play a pivotal role in GVHD and Dr Hill and Prof Hart at the Mater Medical Research Institute will study DC within the context of Dr Hills newly developed therapies with the aim of further understanding the processes of GVHD. This work will allow manipulation of these cells during BMT in order to improve patient survival.Read moreRead less
Allogeneic stem cell transplantation (SCT) remains the most effect curative treatment for patients with a number of malignant conditions, especially leukemia. The ability to cure leukemia by this procedure relates to a process known as Graft-versus-Leukaemia effects (GVL) which ocurrs when the newly transplanted stem cells (which includes the immune system) recognises the leukemia as foreign and mounts an immune attack against it. These studies will focus on the effect of a cellular pathway invi ....Allogeneic stem cell transplantation (SCT) remains the most effect curative treatment for patients with a number of malignant conditions, especially leukemia. The ability to cure leukemia by this procedure relates to a process known as Graft-versus-Leukaemia effects (GVL) which ocurrs when the newly transplanted stem cells (which includes the immune system) recognises the leukemia as foreign and mounts an immune attack against it. These studies will focus on the effect of a cellular pathway invilving NKT cells that preliminary data suggests is critical to the development of GVL. Methods to augment this activation pathway will be studied in preclinical models that may then be studied in clinical trials with the aim of improving the outcome of patients transplanted for leukemias.Read moreRead less
Bone marrow transplantation (BMT) is the most effect treatment for a number of conditions, especially leukemia. Graft versus host disease (GVHD) is a complication of BMT and results in the death of up to 50% of transplant recipients. GVHD occurs when the newly transplanted immune system recognizes the recipient as foreign and mounts and immune reponse against the patients tissues. These studies will focus on identifying and understanding the function of the immune cells which drive GVHD.