Quantification of the Remineralisation of Enamel. This project has three specific aims:
1. To quantify the ultrastructure and mechanisms of remineralisation of enamel using scanning and transmission electron microscopy.
2. To determine the mechanical properties of remineralised tissue and compare with those of sound enamel.
3. To develop an in-vivo optical fibre probe for monitoring and quantifying the changes of mineralised carious tissue during remineralisation.
This project will enable ....Quantification of the Remineralisation of Enamel. This project has three specific aims:
1. To quantify the ultrastructure and mechanisms of remineralisation of enamel using scanning and transmission electron microscopy.
2. To determine the mechanical properties of remineralised tissue and compare with those of sound enamel.
3. To develop an in-vivo optical fibre probe for monitoring and quantifying the changes of mineralised carious tissue during remineralisation.
This project will enable patients prone to orthodontic induced root resorption to be identified and also to assist with validating repair of enamel tooth structure in a non-surgical manner. It is anticipated to result in the development of a novel fibre optic instrument with applications beyond dentistry.
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Survival mechanisms of teeth. The patterns of fracture in teeth can be used to infer bite forces and dietary habits in human ancestors and other animals, yet the link between the fracture pattern and forces is not yet well understood. This project will enable new developments in the field of evolutionary biology by providing mathematical models that can predict these forces.
Discovery Early Career Researcher Award - Grant ID: DE120101666
Funder
Australian Research Council
Funding Amount
$375,000.00
Summary
Endogenous bone regenerative technique to repair hard tissue defects in congenital craniofacial clefts. This project aims to develop an endogenous bone regenerative technique to repair the bony defects in congenital craniofacial clefts, through stimulating patients' latent self-repair mechanisms and reviving their innate capacity for regeneration. The novel technique would replace the existing and controversial surgical bone grafting method.
Assessing Bone Quality and Health: Experimental imaging, structural characterisation, and mechanical modelling of bone in 3D. Age-related bone fractures due to osteoporosis impose a significant social and economic problem on our increasingly aging population. The assessment of bone quality is important in the diagnosis of age related bone fragility and for studying the efficacy of therapeutic intervens. In this proposal a unique interdisciplinary group with expertise in bone and mineral research ....Assessing Bone Quality and Health: Experimental imaging, structural characterisation, and mechanical modelling of bone in 3D. Age-related bone fractures due to osteoporosis impose a significant social and economic problem on our increasingly aging population. The assessment of bone quality is important in the diagnosis of age related bone fragility and for studying the efficacy of therapeutic intervens. In this proposal a unique interdisciplinary group with expertise in bone and mineral research, experimental 3D imaging and the characterisation and modelling of complex materials will tackle the problem of assessing bone quality and health. The proposed research will greatly improve our assessment of the mechanical competence of bone.Read moreRead less
Application of Silver Coatings to medical Devices for Antimicrobial Properties using Electroless Deposition. Silver compounds, eg. in topical creams, can be used to treat chronic infections. The results are mediocre, and there may be significant side effects. Metallic silver when coated on bandages or medical devices is gaining wider acceptance, but the dissolution rate muct be improved to minimise infection. In this project an electroless silver coating process will be developed, with bath ch ....Application of Silver Coatings to medical Devices for Antimicrobial Properties using Electroless Deposition. Silver compounds, eg. in topical creams, can be used to treat chronic infections. The results are mediocre, and there may be significant side effects. Metallic silver when coated on bandages or medical devices is gaining wider acceptance, but the dissolution rate muct be improved to minimise infection. In this project an electroless silver coating process will be developed, with bath chemistry and coating conditions optimised for an ideal dissolution rate. This project will lead to the development of improved medical devices that will have significant social and economic benefits for Australia.Read moreRead less
Optimum design of controlled drug delivery systems. Controlled drug delivery systems are ideal to achieve localised release of drugs at an effective rate for a prolonged period. They have the merit of optimising drug absorption by a body, relieving patients from frequent administration and high dosage of drugs which often result in drug wastage, patients' inconvenience and more importantly the side effects that can be fatal. The success of this project will (1) enhance the Australia pharmaceutic ....Optimum design of controlled drug delivery systems. Controlled drug delivery systems are ideal to achieve localised release of drugs at an effective rate for a prolonged period. They have the merit of optimising drug absorption by a body, relieving patients from frequent administration and high dosage of drugs which often result in drug wastage, patients' inconvenience and more importantly the side effects that can be fatal. The success of this project will (1) enhance the Australia pharmaceutical industry's competitiveness in the global market, (2) provide good medication for the treatment of various diseases, promoting good health of Australians, (3) lead to new mathematical models and solutions that are also applicable to such fields as resources and environmental systems.Read moreRead less