Osteal Macrophages As Therapeutic Targets For Fracture Repair
Funder
National Health and Medical Research Council
Funding Amount
$618,015.00
Summary
Fragility fracture associated with osteoporosis is a substantial health problem costing $1.62 billion to treat in 2012 in Australia. There is no approved therapy to improve and accelerate fracture healing to help reduce this increasing health burden. This research will advance understanding of fracture repair in healthy and osteoporotic bone and progress development of a fracture therapy to improve bone repair by promoting specialised immune cells.
Manipulating The Anabolic And Catabolic Responses For Bone Tissue Engineering
Funder
National Health and Medical Research Council
Funding Amount
$58,202.00
Summary
The repair of large bone defects represents a significant clinical problem. Evolving tissue engineering technologies may lead to significant improvements in orthopaedic treatments for these problems. We plan to compare novel biological approaches designed to maximise new bone formation while preventing bone resorption with existing synthetic graft materials. Our research data will be readily translated from the laboratory to a clinical setting.
The Role Of Perlecan In Tensional Connective Tissues
Funder
National Health and Medical Research Council
Funding Amount
$605,037.00
Summary
Musculoskeletal diseases affect tension and weight bearing connective tissues which have notoriously poor repair capabilities. These conditions are difficult to treat clinically and surgical repair in many cases does not provide a return to optimal joint function impinging on the quality of life of afflicted individuals and their carers. Our project aims to better understand the structure and function of these tissues in health and disease with a view to improving repair strategies.
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.
Why Macrophages Promote Heterotopic Ossifications Following Spinal Cord Injuries
Funder
National Health and Medical Research Council
Funding Amount
$586,950.00
Summary
A frequent complications of brain and spine injuries is the formation of bones outside of the skeleton called "heterotopic ossifications", particularly around joints such as the knee, hip, elbow or shoulder. They grow over a few months to become so large (up to 2 kg) that they block muscles and joints, increasing pain, morbidity and dependance. This project is to understand why heterotopic ossifications form in patients with spine injuries aiming to discover effecttive treatments.
Influence Of Osteocytes On Anabolic Bone Therapies
Funder
National Health and Medical Research Council
Funding Amount
$586,965.00
Summary
This project seeks to define the influence of changes in gene expression in cells called osteocytes, that exist within the substance of bone. These cells form a communication network within the bones of the skeleton, and appear to influence bone formation; changes in gene expression by these cells could influence the efficacy of current and emerging osteoporosis therapies.
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
Osteal Macrophages: Novel Regulators Of Osteoblast Function And The Endosteal Stem Cell Niche
Funder
National Health and Medical Research Council
Funding Amount
$406,125.00
Summary
Bone diseases are a major health problem and current treatments are inadequate. We are investigating a novel role for macrophages (cells important in tissue maintenance and immune responses) in bone growth, repair and disease. Greater understanding of this will provide new ways to treat bone disease. We will also determine if these macrophages help support stem cells that reside near bone surfaces, which may provide new treatment strategies to improve bone marrow transplantation in cancer.