Failure of bone healing leads to significant pain and disability, such that augmentation of fracture repair is a dynamic and important field of study. A full understanding of bone repair is necessary before we can hope to introduce novel successful therapies. We believe that a improved understanding of the origins of the cells involved with bone healing may lead to new surgical, drug and cell-based therapies for the treatment of recalcitrant bone repair. Stem cells originating from the bone marr ....Failure of bone healing leads to significant pain and disability, such that augmentation of fracture repair is a dynamic and important field of study. A full understanding of bone repair is necessary before we can hope to introduce novel successful therapies. We believe that a improved understanding of the origins of the cells involved with bone healing may lead to new surgical, drug and cell-based therapies for the treatment of recalcitrant bone repair. Stem cells originating from the bone marrow and periosteum are known to differentiate into mature bone cells and produce bone. However, these tissues are damaged or have poor access to the site of bone injury in many severe open fractures. In these cases, bone repair often initiates in a region adjacent to an opposing muscle. This has led us to speculate that cells from the muscle may directly contribute to bone repair. Published studies, which have be confirmed by our group, have demonstrated the strong potential for muscle-derived progenitor cells (satellite cells) to become bone-like in response to stimuli such as bone morphogenic proteins. To put bone-forming potential of muscle cells in perspective, we plan to expand on these studies and compare mouse satellite cells with mouse bone marrow stem cells. In addition, we plan to use a transgenic mouse whose muscle cells become permanently genetically transformed to stain blue. This mouse will allow us to assess the fate of muscle cells and their contribution to bone formation in ectopic bone formation and fracture repair models. This study will explore on the most basic level the cellular contribution of muscle to bone repair. The results of this research project will significantly influence our therapeutic directions for improving fracture repair in the future.Read moreRead less
Randomised Trial Of Ibuprofen For The Prevention Of Ectopic Bone-related Pain And Disability After Hip Replacement
Funder
National Health and Medical Research Council
Funding Amount
$364,217.00
Summary
Joint replacement is a well-established treatment for severe osteoarthritis of the hip. While most patients benefit substantially from the procedure, many still experience some pain and disability after surgery. New evidence suggests that one important cause of this pain and disability may be abnormal bone deposits that form in the muscles around the hip (ectopic bone formation) during the first few months after surgery. Ectopic bone formation is seen in about 40% of all patients with hip replac ....Joint replacement is a well-established treatment for severe osteoarthritis of the hip. While most patients benefit substantially from the procedure, many still experience some pain and disability after surgery. New evidence suggests that one important cause of this pain and disability may be abnormal bone deposits that form in the muscles around the hip (ectopic bone formation) during the first few months after surgery. Ectopic bone formation is seen in about 40% of all patients with hip replacements. If the formation is extensive, all movement of the hip is lost and revision surgery is necessary. However, even when the formation is less severe, movement at the hip can be restricted resulting in pain and disability. There is growing evidence that treatment with a non-steroidal anti-inflammatory drug at the time of surgery may halve the risk of ectopic bone formation. While this would be expected to decrease the risk and severity of post-operative pain and disability, there is little evidence available about the long-term effects of these drugs after hip replacement. For this reason, together with concerns about possible side-effect of these drugs, orthopaedic surgeons have generally been reluctant to prescribe these drugs routinely for the prevention of ectopic bone formation. Ibuprofen appears to be the non-steroidal anti-inflammatory drug with the lowest risk of side effects. If it was shown to be effective in reducing the incidence of pain and disability associated with ectopic bone formation after hip replacement, it may well be considered worthwhile by doctors and patients alike. If such benefits were realised, this preventive strategy is likely to be a highly cost-effective way to improve long-term outcome among the rapidly growing numbers of patients that receive hip replacements. This study will provide reliable evidence about the short and long-term effects of ibuprofen among 1,000 patients receiving hip replacements in Australia.Read moreRead less
Identification Of Novel PTH Anabolic Targets In Osteoblasts
Funder
National Health and Medical Research Council
Funding Amount
$547,216.00
Summary
Osteoporosis is a major disease affecting Australians. Whilst there are a number of drugs available that will reduce bone loss, there are few drugs available that build new bone, and little is known of the action of these drugs. New targets have been identified that modulate bone formation, and this project aims to validate these in appropriate models and determine their mechanism of action.
Optimising Bone Regeneration Using Advanced Design And Fabrication Technologies
Funder
National Health and Medical Research Council
Funding Amount
$916,671.00
Summary
The aging population has produced a rapidly increasing demand for synthetic implants that can regenerate lost or diseased bone. This project will produce an implant that represents a viable alternative to bone autografts and allografts with broad applications for the repair of large or challenging bone defects. Such an achievement will have significant healthcare benefits by reducing patient morbidity and recovery time, and improving long-term outcomes.
Experimental And Computational Study On Biomechanical Behavior Of Osteocytes
Funder
National Health and Medical Research Council
Funding Amount
$86,073.00
Summary
The experimental and computational methods (finite element method) are used to predict biomechanical behaviors of osteocytes under normal physiological loading, overloading or under-loading/disuse. This quantitative research will not only help to elucidate the mechanisms of mechanotransduction in osteocytes, it will provide important information that is also relevant to mechanobiology in general.
Delayed bone healing can be a considerable problem in both children and adults. Up to 10% of fractures fail to heal properly. An advanced understanding of the cellular responses in bone repair and their manipulation could improve the lives of many patients with orthopaedic problems. These studies will advance out knowledge of interventions to promote bone healing which could be translated rapidly into clinical care.
Does Teriparatide Reverse Osteonecrosis Of The Jaw In Patients With Cancer? A Randomised, Controlled Trial
Funder
National Health and Medical Research Council
Funding Amount
$137,700.00
Summary
Osteonecrosis of the jaw (ONJ) is a debilitating bone condition involving damage and suboptimal healing of bone involving the jaw. This has been associated with bisphosphonate therapy, which is commonly used for the treatment of both cancer and osteoporosis. My research aims to investigate the role of recombinant parathyroid hormone in the stimulation of bone formation and healing and, thus, its potential to reverse ONJ.
Hypothalamic Signalling In Cortical And Trabecular Bone Anabolic Activity
Funder
National Health and Medical Research Council
Funding Amount
$472,770.00
Summary
Osteoporosis is a disease associated with an exponential rise in the number of fractures in the elderly. These fractures are so common that around 1 in 3 women and 1in four men will be affected. They cause pain, disability that can be permanent disability and are associated with premature death. Current treatments are able to effectively increase bone strength in osteoporotic patients but can not return bone strength to normal. Some new treatments can restore bone strength to some extent but the ....Osteoporosis is a disease associated with an exponential rise in the number of fractures in the elderly. These fractures are so common that around 1 in 3 women and 1in four men will be affected. They cause pain, disability that can be permanent disability and are associated with premature death. Current treatments are able to effectively increase bone strength in osteoporotic patients but can not return bone strength to normal. Some new treatments can restore bone strength to some extent but these are limited by expense and safety concerns. We have discovered a pathway in the brain that reduces bone formation and by blocking this pathway we can achieve doubling of the amount of bone in key bone sites. This occurs due to a marked increase in the amount of new bone formed. In fact, genetic manipulation of this pathway was able to double the speed at which bone is made by the skeleton. Excitingly, these increases in bone were possible in adult mice, suggesting such changes could be potential therapy for human patients. However, in order to be able to harness this pathway we must understand what molecules within the brain are responsible for the signals that reach the bone. Our proposal aims to identify the nerve signalling molecule(s) and the receptor for these signals within the brain that initiates the increase in bone formation. This project ultimately aims to identify a target for new therapies that could cause this beneficial effect by administration of a simple treatment, preferably by mouth in adult humans.Read moreRead less
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.