Engineering cartilage homeostasis in health and disease. Arthritis is a common, painful and often debilitating disease affecting 16% of the Australian population and costing this community $11 billion every year. It is not well understood why cartilage degenerates into joint disease, nor how it may be reversed - partly due to the large number of mechanisms involved. This project aims to overcome this complexity by developing a computational model of cartilage that can integrate the various mech ....Engineering cartilage homeostasis in health and disease. Arthritis is a common, painful and often debilitating disease affecting 16% of the Australian population and costing this community $11 billion every year. It is not well understood why cartilage degenerates into joint disease, nor how it may be reversed - partly due to the large number of mechanisms involved. This project aims to overcome this complexity by developing a computational model of cartilage that can integrate the various mechanisms of cartilage degradation. New experiments will be used to validate the model and test predictions. The model developed will provide fundamental insights into what is required for the maintenance of healthy cartilage, and what happens in injury-induced degradation of cartilage.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
Design and Fabrication of an Engineered Bone Graft System (EBGS) by combining a composite scaffold and growth factor delivery system. The lifetime risk for long bone fractures in Caucasians over the age of 50 is 17% for women and 6% for men. The prevalence of age-related fractures - and with it higher mortality rates due to complications following bone fractures - is therefore bound to increase over the coming decades. There is clearly a great need for therapies that take age-related changes in ....Design and Fabrication of an Engineered Bone Graft System (EBGS) by combining a composite scaffold and growth factor delivery system. The lifetime risk for long bone fractures in Caucasians over the age of 50 is 17% for women and 6% for men. The prevalence of age-related fractures - and with it higher mortality rates due to complications following bone fractures - is therefore bound to increase over the coming decades. There is clearly a great need for therapies that take age-related changes into consideration, in particular the diminishing capacity of bone to heal with age. In an effort to address the therapeutic challenges of providing bone grafts, we aim to mesh two leading-edge technologies to design and fabricate an Engineered Bone Graft System (EBGS) system. Read moreRead less
Development and characterization of a technology platform to study the mechanisms of scaffold/Bone Morphogenic Proteins (BMP) augmented large segmental bone healing. This project will increase understanding of bone engineering and in doing so will lead to superior treatments for bone defects. Such a treatment would be valuable in addressing the ever-increasing problems of diminished productivity and reduced quality of life associated with bone disorders as the population ages. The multidisciplin ....Development and characterization of a technology platform to study the mechanisms of scaffold/Bone Morphogenic Proteins (BMP) augmented large segmental bone healing. This project will increase understanding of bone engineering and in doing so will lead to superior treatments for bone defects. Such a treatment would be valuable in addressing the ever-increasing problems of diminished productivity and reduced quality of life associated with bone disorders as the population ages. The multidisciplinary and international team will be valuable in establishing Australia's prominence in this field and training the next generation of young scientists and engineers. The technologies developed will be of great interest to a large number of research groups and companies worldwide and will assist with fostering international collaboration and placing Australia at the forefront of this emerging 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
Graded Biomaterial for Articular Cartilage Replacement. Osteoarthritis is a major health and economical burden on the Australian community which can be addressed in part by providing a viable option for effective clinical treatment. 34% of people over the age of 50 suffer from osteoarthritis, predominantly the knee. The development of a biomaterial to enable repair of articular cartilage through minor surgical procedures will release resources at point of care. Current biomaterial options are st ....Graded Biomaterial for Articular Cartilage Replacement. Osteoarthritis is a major health and economical burden on the Australian community which can be addressed in part by providing a viable option for effective clinical treatment. 34% of people over the age of 50 suffer from osteoarthritis, predominantly the knee. The development of a biomaterial to enable repair of articular cartilage through minor surgical procedures will release resources at point of care. Current biomaterial options are still in infancy and an Australian based product would benefit the Australian economy as well as Australia's international standing within the biomaterials community.Read moreRead less
Coherent optical tissue biopsy and analysis targeting muscle pathology. This international, interdisciplinary collaborative research should change the way structures in tissues are characterised with broad impact on health, biotechnology, and the meat industry. Specific benefits include: a large reduction in the time/effort required for the ubiquitous process of histology of muscle and other tissue sections and samples; a large reduction in the number of animals required in experimentation and ....Coherent optical tissue biopsy and analysis targeting muscle pathology. This international, interdisciplinary collaborative research should change the way structures in tissues are characterised with broad impact on health, biotechnology, and the meat industry. Specific benefits include: a large reduction in the time/effort required for the ubiquitous process of histology of muscle and other tissue sections and samples; a large reduction in the number of animals required in experimentation and the possibility of time sequential studies of the same animal; and in muscular dystrophy in humans, a new capability in the direct assessment of muscle tissue and the disease treatment and progression. This suite of advances should generate intellectual property of major commercial importance.Read moreRead less
The Tissue Engineering of Tissue Regeneration: Innovative Biomaterials for Tissue Regeneration. The aim of this work is to advance the science of tissue regeneration closer towards potential clinical applications. To do this we hope to solve some problems currently preventing this type of therapy from developing further.
The significance of this work is that it will help us further understand why this phenomenon is limited in humans and most animals, but present in lower order vertebrates ....The Tissue Engineering of Tissue Regeneration: Innovative Biomaterials for Tissue Regeneration. The aim of this work is to advance the science of tissue regeneration closer towards potential clinical applications. To do this we hope to solve some problems currently preventing this type of therapy from developing further.
The significance of this work is that it will help us further understand why this phenomenon is limited in humans and most animals, but present in lower order vertebrates such as salamanders.
The expected outcome is the design of innovative biomaterials suited for effective tissue reconstruction and regeneration with widespread clinical applications.
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Novel Glycoproteomic based diagnostic technology for identifying cartilage tissue turnover and repair. Osteoarthritis is a long-term debilitating disease, which results in the loss of cartilage in the joints, leading to pain and disability. This is a major problem and cost in ageing societies, yet the mechanisms of joint deterioration are still poorly understood. This project will investigate proteoglycans and proteoglycan fragments produced by cells of the joint, detailing the structure of th ....Novel Glycoproteomic based diagnostic technology for identifying cartilage tissue turnover and repair. Osteoarthritis is a long-term debilitating disease, which results in the loss of cartilage in the joints, leading to pain and disability. This is a major problem and cost in ageing societies, yet the mechanisms of joint deterioration are still poorly understood. This project will investigate proteoglycans and proteoglycan fragments produced by cells of the joint, detailing the structure of their sugar components, and map which regions are interacting with antibodies. Understanding these proteoglycan fragments will help us to determine their role in disease progression, and application of this knowledge will assist in the development of an early diagnostic for osteoarthritis.Read moreRead less
Material structure and properties of mineralised tissue: An integrated micro and nano level investigation. Bone material properties have a direct influence on disorders of the skeleton, such as osteoporotic bone fragility fractures and osteoarthritis. It has been estimated that the direct and indirect cost of all fragility fractures and arthritis is over $20 billion per annum. The impact of this will be far-reaching with the social benefits ranging from earlier and more accurate diagnoses, to t ....Material structure and properties of mineralised tissue: An integrated micro and nano level investigation. Bone material properties have a direct influence on disorders of the skeleton, such as osteoporotic bone fragility fractures and osteoarthritis. It has been estimated that the direct and indirect cost of all fragility fractures and arthritis is over $20 billion per annum. The impact of this will be far-reaching with the social benefits ranging from earlier and more accurate diagnoses, to the development of preventative strategies to delay the onset of musculoskeletal disorders. These developments will translate into exciting commercial opportunities and overall economic growth and sustainability.Read moreRead less