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.
A Potential Analgesic Target In A Novel Clinically-relevant Neuropathic Pain Pathway.
Funder
National Health and Medical Research Council
Funding Amount
$685,811.00
Summary
Persistent pain arising from tissue damage, to nerves, muscles or joints for example, is devastating for patients and a huge social and economic burden. This work will investigate one of the pathways that goes awry after sensory nerves are damaged. These experiments will also test whether a drug being developed to treat Alzheimer's disease is effective at blocking the persistent nerve hypersensitivity that sometimes develops after injury.
Molecular Imaging And Therapy Of Cardiac Fibrosis In Atrial Fibrillation And Heart Failure
Funder
National Health and Medical Research Council
Funding Amount
$1,021,656.00
Summary
Cardiac fibrosis is a serious medical condition which can lead to an irregular heart beat and heart failure. We will develop novel diagnostic agents which are more sensitive and able to detect fibrosis of the heart at an earlier time point. This would allow timely initiation of therapy. In addition, we will investigate novel targeted anti-fibrotic agents to treat this devastating disease condition more effectively and with less adverse effects.
RANKL, A Critical New Player In The Coordination Of Whole Body Energy Homeostasis
Funder
National Health and Medical Research Council
Funding Amount
$842,946.00
Summary
Imbalances in food intake and energy expenditure can lead to the development of obesity or anorexia. Conserved mechanisms are in place to coordinate the energy requirements of organs and tissues. The main centre is the brain which receives, processes and sends out information to accommodate the needs of the different tissues. Bone tissue in particular is in need of a lot of energy. Factors produced by bone are therefore critical in the coordination of whole body energy homeostasis.
Repurposing An Alzheimer’s Trial Drug To Block Relapse In Cocaine Addiction Models
Funder
National Health and Medical Research Council
Funding Amount
$1,050,601.00
Summary
Repeated exposure to drugs of abuse, such as cocaine, alters the reward circuitry of the brain. Enduring changes in the connections between neurons underlie addiction-related behavioural patterns, drug craving and the propensity for relapse after drug withdrawal. The pre-clinical research in this proposal aims to test whether blocking the function of a particular brain protein in mice can prevent relapse in two different paradigms that model cocaine addiction in humans.
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.
The Impact Of The Changes In Levels Of Adhesion Molecules NCAM2 And DsCAM On Synapse Formation And Function: Implications For Down Syndrome
Funder
National Health and Medical Research Council
Funding Amount
$334,053.00
Summary
Down syndrome (DS) results from triplication of chromosome 21 and leads to mental retardation, molecular mechanisms of which are not understood. We found that two proteins, NCAM2 and DSCAM, encoded at chromosome 21 are highly expressed in synapses. Synapses are specialized contacts between neurons which allow neurons to process information in the brain. In this project we will test a hypothesis that changes in NCAM2 and DSCAM expression result in synapse abnormalities observed in DS.
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.
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.
The primary aim of this grants to determine how HIV spreads through our immune system. The above knowledge will determine key Achille’s Heel moments in the HIV life cycle and thus lead to better therapeutic HIV treatments/prevention.