Advanced micro-architecture and nanotopography for enhanced tissue growth in scaffolds. Tissue engineering scaffolds offer an urgently needed synthetic biomaterials solution to overcome disease transmission from donor transplants. This work will combine biomaterial chemistry and designed surface topography to trigger bone formation within a scaffold for the first time in the world. Collaboration with national research leaders on stem cell and animal testing of the new scaffolds will provide the ....Advanced micro-architecture and nanotopography for enhanced tissue growth in scaffolds. Tissue engineering scaffolds offer an urgently needed synthetic biomaterials solution to overcome disease transmission from donor transplants. This work will combine biomaterial chemistry and designed surface topography to trigger bone formation within a scaffold for the first time in the world. Collaboration with national research leaders on stem cell and animal testing of the new scaffolds will provide the necessary interdisciplinary approach to generate a new product for patients in need of bone regeneration. Australia will benefit from the contribution to medical science, the development of a new device for rapid prototyping tissue engineering scaffolds, retain biomaterials research expertise, and generate new biomedical products.Read moreRead less
Social practices of oral health in Australian preschool children. The aim of the study is to explore "social practices" of oral health in Australian (Aboriginal and non-Aboriginal) preschool children. We use this emerging theory to move away from focusing on individuals and individual behaviour (and blame) to identify and map social practices: actions, materials and meanings families attribute to
child’s oral health. Expected project outcomes include identifying practices promoting or underminin ....Social practices of oral health in Australian preschool children. The aim of the study is to explore "social practices" of oral health in Australian (Aboriginal and non-Aboriginal) preschool children. We use this emerging theory to move away from focusing on individuals and individual behaviour (and blame) to identify and map social practices: actions, materials and meanings families attribute to
child’s oral health. Expected project outcomes include identifying practices promoting or undermining children’s oral health that can inform upstream and downstream policy directions and practices to improve health outcomes. This offers a new approach to "wicked" problems such as oral health where extensive
effort has not reduced morbidity and cost despite rhetoric that oral health is preventable.Read moreRead less
From foraging to farming. Human adaptations during major transitions. This project aims to investigate the causes that led to the human demographic explosion occurred during the Neolithic Revolution by analysing dental tissues through cutting-edge methods. This project expects to generate novel insights about the diet, health and weaning practices in Mediterranean human populations from the last 30,000 years. Expected outcomes of this project include the creation of new data on early life dietar ....From foraging to farming. Human adaptations during major transitions. This project aims to investigate the causes that led to the human demographic explosion occurred during the Neolithic Revolution by analysing dental tissues through cutting-edge methods. This project expects to generate novel insights about the diet, health and weaning practices in Mediterranean human populations from the last 30,000 years. Expected outcomes of this project include the creation of new data on early life dietary transitions in archaeological populations, enhancing capacity to build interdisciplinary collaborations, and refining methods and concepts to study the diet of the past. This should provide significant benefits to Australian research in evolutionary anthropology, nutrition and in dentistry.Read moreRead less
A real-time biomechanical study of Neanderthal anterior dentition. This project aims to advance understanding of the evolution of human dentition using an innovative approach that integrates sophisticated 3D digital modelling with engineering tools. Neanderthals are our closest extinct human relatives that inhabited Eurasia from about 230,000 to 28,000 years ago. However, their protruding faces, large noses and big anterior teeth, raise questions about why these people look so different from us. ....A real-time biomechanical study of Neanderthal anterior dentition. This project aims to advance understanding of the evolution of human dentition using an innovative approach that integrates sophisticated 3D digital modelling with engineering tools. Neanderthals are our closest extinct human relatives that inhabited Eurasia from about 230,000 to 28,000 years ago. However, their protruding faces, large noses and big anterior teeth, raise questions about why these people look so different from us. This project aims to fill this gap in human knowledge about our evolutionary history, and to enhance the international visibility of Australian research in palaeoanthropology and dental biomechanics.Read moreRead less