Disposable microfluidic diagnostics for new generation foods, beverages and oral care products. The outcomes of this project will lead to the establishment of a new paradigm in designing foods, beverages and oral care products that have tailored health and vitality benefits (e.g. reduced levels of fat, sugar and salt). In addition, these foods will contain beneficial additives (e.g. anti-oxidants, vitamins, minerals, phytonutrients) targeted to specific consumer groups according to their lifesty ....Disposable microfluidic diagnostics for new generation foods, beverages and oral care products. The outcomes of this project will lead to the establishment of a new paradigm in designing foods, beverages and oral care products that have tailored health and vitality benefits (e.g. reduced levels of fat, sugar and salt). In addition, these foods will contain beneficial additives (e.g. anti-oxidants, vitamins, minerals, phytonutrients) targeted to specific consumer groups according to their lifestyle, age, medical condition or requirement for nutritional/nourishment efficacy, thereby contributing to healthy ageing. It is foreseen that this novel approach to designing foods will be extended to products intended for consumers whose sensory perception is compromised by existing medical therapeutic practices (such as radiation therapy).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