Numerical investigation of signal mechanotransduction of bone cells - application to bone remodeling. The understanding of signal mechanotransduction of bone cells is directly related to mechanical activation of bone remodeling processes, i.e., resorption and formation of bone tissue. Understanding of bone remodeling is essential for the development of new bone implants, the prognosis of osteosporosis, and studies related to changes in microgravity (e.g. space flight) to name a few key applicati ....Numerical investigation of signal mechanotransduction of bone cells - application to bone remodeling. The understanding of signal mechanotransduction of bone cells is directly related to mechanical activation of bone remodeling processes, i.e., resorption and formation of bone tissue. Understanding of bone remodeling is essential for the development of new bone implants, the prognosis of osteosporosis, and studies related to changes in microgravity (e.g. space flight) to name a few key applications. This research proposal closely aligns with one of the major national research priorities, i.e., promoting and maintaining good health (ageing well, ageing productively). The research project is aimed to understand how mechanically induced loading may activate remodeling of bone.
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Predictive models to study neuromuscular control of walking in older people. This project aims to address a major challenge in human motion simulation: to deliver computationally-efficient predictive simulations of movement biomechanics. It plans to bring together the latest developments in computational modelling, medical imaging and nonlinear optimal control theory to advance current understanding of how individual lower-limb muscles stabilise and control body movement during locomotion in hea ....Predictive models to study neuromuscular control of walking in older people. This project aims to address a major challenge in human motion simulation: to deliver computationally-efficient predictive simulations of movement biomechanics. It plans to bring together the latest developments in computational modelling, medical imaging and nonlinear optimal control theory to advance current understanding of how individual lower-limb muscles stabilise and control body movement during locomotion in healthy young and older adults. New knowledge of how age-related changes in muscle mechanical properties affect the neuromuscular control of walking may assist in the design of more targeted exercise-based therapies aimed at maintaining independent function and improving the quality of life for older adults.Read moreRead less
Scaffolds for bone tissue regeneration and use in orthopaedic applications. Damaged joints do not repair spontaneously, often leading to arthritis. Bone defects resulting from congenital defects or disease processes are challenging to regenerate and represent a major financial burden to our health system. Bone graft treatments are widely used but have considerable drawbacks. This created a need for scaffolds to provide temporary support for new bone. However they lack the combined physical/biolo ....Scaffolds for bone tissue regeneration and use in orthopaedic applications. Damaged joints do not repair spontaneously, often leading to arthritis. Bone defects resulting from congenital defects or disease processes are challenging to regenerate and represent a major financial burden to our health system. Bone graft treatments are widely used but have considerable drawbacks. This created a need for scaffolds to provide temporary support for new bone. However they lack the combined physical/biological properties necessary for bone repair. We developed new scaffolds with improved mechanical/biological properties to mimic bone which will lead to new treatments for bone damage.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0453623
Funder
Australian Research Council
Funding Amount
$164,640.00
Summary
Peripheral quantitative computed tomography facility for analysing bone material and structural properties. We aim to establish a facility that allows non-invasive measurement of apparent material and structural properties of small animal and human bone using leading-edge technology, peripheral quantitative computed tomography (pQCT). pQCT measurements, incorporated into our fundamental bone research will improve our understanding of the role of mechanical, environmental and local factors in re ....Peripheral quantitative computed tomography facility for analysing bone material and structural properties. We aim to establish a facility that allows non-invasive measurement of apparent material and structural properties of small animal and human bone using leading-edge technology, peripheral quantitative computed tomography (pQCT). pQCT measurements, incorporated into our fundamental bone research will improve our understanding of the role of mechanical, environmental and local factors in regulating bone and mineral metabolism and altering bone properties. This has implications for maximising bone strength and promoting optimal health throughout life. The facility will be used for a diverse range of multidisciplinary basic bone research and is vital in order to maintain international competitiveness in the field.Read moreRead less
Bone regulation - cell interactions to disease. Many bone disorders such as osteoporosis, Paget's disease and chancer related bone diseases are directly related to disruption of communication pathways between bone cells leading to imbalances in bone remodeling. Although these disorders are common and cause considerable suffering, in most cases little is known about the mechanisms responsible for dysfunctional remodeling. Understanding the communication network between bone cells and their inter ....Bone regulation - cell interactions to disease. Many bone disorders such as osteoporosis, Paget's disease and chancer related bone diseases are directly related to disruption of communication pathways between bone cells leading to imbalances in bone remodeling. Although these disorders are common and cause considerable suffering, in most cases little is known about the mechanisms responsible for dysfunctional remodeling. Understanding the communication network between bone cells and their interaction with drugs is essential in order to develop new therapies and to effectively design novel biological compatible bone implants. This research proposal closely aligns with national research priority two, i.e., promoting and maintaining good health (ageing well, ageing productively).Read moreRead less
Using nanostructured biomaterials and stem cells to repair spinal cord injuries. There is currently no effective cure for spinal cord injuries and the consequences to the patient are devastating. Spinal cord injuries affects limb, bowel, bladder and sexual function, and many people with these injuries strugle to maintain their independence. Because people can live for many years after spinal cord damage, the financial and social costs are immense, as many are dependent on the help of others for ....Using nanostructured biomaterials and stem cells to repair spinal cord injuries. There is currently no effective cure for spinal cord injuries and the consequences to the patient are devastating. Spinal cord injuries affects limb, bowel, bladder and sexual function, and many people with these injuries strugle to maintain their independence. Because people can live for many years after spinal cord damage, the financial and social costs are immense, as many are dependent on the help of others for their survival. This proposal tackles this urgent problem by applying advanced nanostructured materials with stem cells, to assist the body in the repair of the spinal cord following injury. Read moreRead less
Nerve regeneration using light responsive hydrogels and stem cells. Diseases of the brain and mind are already the single largest burden of disease in the western world, being greater than cardiac or malignant disease. With Australia's ageing demographic, diseases of the brain and mind will continue to outstrip all other medical causes of loss of productive working life and quality of life. This proposal will confront this serious issue using nanostructured intelligent materials, moving towards ....Nerve regeneration using light responsive hydrogels and stem cells. Diseases of the brain and mind are already the single largest burden of disease in the western world, being greater than cardiac or malignant disease. With Australia's ageing demographic, diseases of the brain and mind will continue to outstrip all other medical causes of loss of productive working life and quality of life. This proposal will confront this serious issue using nanostructured intelligent materials, moving towards the realization of effective stem cell therapies.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0989471
Funder
Australian Research Council
Funding Amount
$300,000.00
Summary
Facility for innovation in structural biomaterials engineering. Biomaterials are used in a diverse range of environments that impact on the way that all Australians live. The Facility for Innovation in Structural Biomaterials Engineering will greatly assist researchers to undertake cross-disciplinary projects aimed at improving human health eg. smart materials that assist stem cell therapies for treating deafness and spinal cord injuries, as well the way we live eg. more durable building materia ....Facility for innovation in structural biomaterials engineering. Biomaterials are used in a diverse range of environments that impact on the way that all Australians live. The Facility for Innovation in Structural Biomaterials Engineering will greatly assist researchers to undertake cross-disciplinary projects aimed at improving human health eg. smart materials that assist stem cell therapies for treating deafness and spinal cord injuries, as well the way we live eg. more durable building materials for a sustainable national infrastructure. The facility will help Australia remain at the forefront of these high priority areas and see both individuals and industry benefit from advanced biomaterial products.Read moreRead less
Estimating The Risk of Preterm Birth Using Blood Tests. This research falls under National Research Priority 'A Healthy Start to Life'. The overall aim of this project is to develop risk estimates for preterm birth that may be used in clinical practice for the management of pregnancy. The project is concerned with developing computational methods, software, and a clinical interface that may be used by obstetricians. As well as identifying women at high risk of preterm birth, this approach will a ....Estimating The Risk of Preterm Birth Using Blood Tests. This research falls under National Research Priority 'A Healthy Start to Life'. The overall aim of this project is to develop risk estimates for preterm birth that may be used in clinical practice for the management of pregnancy. The project is concerned with developing computational methods, software, and a clinical interface that may be used by obstetricians. As well as identifying women at high risk of preterm birth, this approach will also help identify women at very low risk of preterm birth, and so those women more suited to management by midwives, either in a hospital or home birth setting.Read moreRead less