NaviGAIT: New Software To Simplify Interpretation Of Gait Analysis Data
Funder
National Health and Medical Research Council
Funding Amount
$179,905.00
Summary
NaviGAIT is a new software package to support interpretation of gait analysis data. It is based upon Gait Profiling, a new technique to reduce the complexity of such data. At present data intepretation is restricted to a few expert clinicians. The new software will allow non-expert clinicians to interpret data and hence make gait analysis more accessible, cheaper and more clincally useful. A module of NaviGAIT specifically for children with cerebral palsy will be the first to be developed.
Caltrin As A Calcium Transport Inhibitor During Osteoclastic Bone Resorption
Funder
National Health and Medical Research Council
Funding Amount
$196,527.00
Summary
Excessive bone resorption has been observed in many common bone diseases such as osteoporosis, Paget's disease and arthritis. These are major health problems in Australia and other developed countries. Increased activation or formation of osteoclasts is responsible for the excessive bone resorption. Understanding the mechanisms by which the osteoclasts exert its function and activation is an important step toward developing strategies to combat excessive bone resorption for the treatment and pre ....Excessive bone resorption has been observed in many common bone diseases such as osteoporosis, Paget's disease and arthritis. These are major health problems in Australia and other developed countries. Increased activation or formation of osteoclasts is responsible for the excessive bone resorption. Understanding the mechanisms by which the osteoclasts exert its function and activation is an important step toward developing strategies to combat excessive bone resorption for the treatment and prevention of osteolytic disorders. This project attempts to address the important and fundamental issue of osteoclast function. We have identified caltrin, a known calcium transport inhibitor, that is likely to be biologically important in osteoclast calcium homeostasis. This project intends to investigate the role of caltrin in calcium-induced apoptosis, osteoclast bone resorption and the cellular and molecular mechanisms underlined. It will enhance our knowledge of calcium regulation in osteoclasts and provide information to facilitate the development of new anti-resorptive agents.Read moreRead less
Vertebral Body Strength: Contribution Of Bone Mass, Bone Structure And Material Properties
Funder
National Health and Medical Research Council
Funding Amount
$434,498.00
Summary
This study will determine the contributions to vertebral body strength made by its structural and material properties. Using state-of-the-art computed-tomography scanners, digitised representations of vertebral bodies in three-dimensions will be produced, which enable measurement of bone structure. After strength testing of the vertebral bodies, the structural and material properties, which combine to predict vertebral body strength, will be identified in an aged population.
The Role Of Suppressor Of Cytokine Signalling-3 (SOCS-3) In Chondrocytes During Development And Disease
Funder
National Health and Medical Research Council
Funding Amount
$348,392.00
Summary
Cytokines are messenger proteins produced and secreted from one cell which then bind to specific receptors on the surface of other cells. After binding, a series of intracellular events occurs, termed signalling, that results in the target cell changing its behaviour. Cytokine signalling, if allowed to proceed unchecked, can result in various disease states. The suppressor of cytokine signalling (SOCS) proteins are key negative regulators of cytokine signalling within the cell. They are induced ....Cytokines are messenger proteins produced and secreted from one cell which then bind to specific receptors on the surface of other cells. After binding, a series of intracellular events occurs, termed signalling, that results in the target cell changing its behaviour. Cytokine signalling, if allowed to proceed unchecked, can result in various disease states. The suppressor of cytokine signalling (SOCS) proteins are key negative regulators of cytokine signalling within the cell. They are induced by a wide range of stimuli, especially from a group called the IL-6 family. We have preliminary data showing that cartilage cells (chondrocytes) normally produce a particular SOCS protein, called SOCS-3. We have also shown that when SOCS-3 production is dysregulated, the chondrocytes undergo excessive proliferation. Normal chondrocyte function is important during skeletal development and diseases such as osteoarthritis are thought to result from abnormal chondrocyte behaviour. It is likely that SOCS-3 has a key role in regulating chondrocyte function. The aim of this proposal is therefore to examine the role of SOCS-3 in chondrocytes, during development and in disease. Much of our understanding of the role of the SOCS proteins comes from the construction of mutant mice that lack a particular SOCS protein. When mutant mice are made that lack SOCS-3 in the whole animal the mice die before birth and so virtually nothing is known about the role of SOCS-3 in chondrocytes and the implications for cartilage in disease states, such as arthritis. To answer this we will create mice that lack SOCS-3 specifically in their chondrocytes. Evaluating the role of SOCS-3 in cartilage development and chondrocyte function during degenerative and inflammatory disease states is potentially of major clinical importance in improving our understanding of arthritis and of cartilage repair.Read moreRead less