Tomato and vegetable oil synergies for healthier foods. Vegetable and fruit products are recognised for their content of health-promoting phytonutrients. This project will investigate the bioavailability and subsequent in-vivo antioxidant activity of tomatoes and vegetable oils alone or in combination. A second aim will be to isolate particular phytonutrients from tomates and selected vegetable oils, and then to combine them for determination of synergistic interactions affecting antioxidant ac ....Tomato and vegetable oil synergies for healthier foods. Vegetable and fruit products are recognised for their content of health-promoting phytonutrients. This project will investigate the bioavailability and subsequent in-vivo antioxidant activity of tomatoes and vegetable oils alone or in combination. A second aim will be to isolate particular phytonutrients from tomates and selected vegetable oils, and then to combine them for determination of synergistic interactions affecting antioxidant activity. Opportunities for the preparation of new phytonutrient-oil combination foods with increased antioxidant activity and the potential to enhance the health status of consumers will be developed. The research will provide food processors with expertise to develop novel plant-derived ingredients and food products for sale in the internationally growing functional foods market.Read moreRead less
Development of novel omega-3 enriched poultry products. New Health recommendations and changes to the Food Standards Code encourage greater dietary intake of omega-3 (w-3) fatty acids. Our core research on modifying fatty acid composition of poultry tissues and preliminary studies with our industry partner's proprietary fishmeal product (PorcOmega) have indicated the feasibility of producing novel meat products and eggs with high w-3 contents, which would qualify to carry a new nutrition label. ....Development of novel omega-3 enriched poultry products. New Health recommendations and changes to the Food Standards Code encourage greater dietary intake of omega-3 (w-3) fatty acids. Our core research on modifying fatty acid composition of poultry tissues and preliminary studies with our industry partner's proprietary fishmeal product (PorcOmega) have indicated the feasibility of producing novel meat products and eggs with high w-3 contents, which would qualify to carry a new nutrition label. We now propose, in collaboration with our industry partner, to assess the viability of producing such products by conducting poultry feeding trials with PorcOmega on a commercial scale and evaluating both the levels of w-3 enrichement of chicken breast, thigh and sausages, shelf-life and consumer acceptability (sensory evaluation) of these products. We expect to establish feeding strategies for adoption by commercial producers of premium poultry and eggs for local or export markets.Read moreRead less
Establishing evidence for the functional properties of a whole grain in weight management. The successful development of functional foods relies on communicating proven effects. This project aims to prove that the food containing the satiety properties of a whole grain (OG) may help in weight management. We will conduct basic research investigating the link between consumption of OG-containing foods and the regulatory mechanisms of satiety, and test whether the satiety properties can be used to ....Establishing evidence for the functional properties of a whole grain in weight management. The successful development of functional foods relies on communicating proven effects. This project aims to prove that the food containing the satiety properties of a whole grain (OG) may help in weight management. We will conduct basic research investigating the link between consumption of OG-containing foods and the regulatory mechanisms of satiety, and test whether the satiety properties can be used to prevent, reduce and correct body weight gain in the early, middle and late stages of obesity. We will then apply this understanding in a human trial of mildly and long term overweight subjects, to aid the formulation of statements on the potential health benefits from consuming OG.Read moreRead less
Establishing the relations between starch nano- and mesostructure and macroscopic physical properties. Starch is the major energy component within human diets, and the most abundant polymer that can be readily extracted from annual crop plants, leading to many actual and potential industrial applications. There are major opportunities to optimise the nutritional value of starches in the human diet, and to enhance the properties of extracted starches as renewable alternatives to petrochemical pol ....Establishing the relations between starch nano- and mesostructure and macroscopic physical properties. Starch is the major energy component within human diets, and the most abundant polymer that can be readily extracted from annual crop plants, leading to many actual and potential industrial applications. There are major opportunities to optimise the nutritional value of starches in the human diet, and to enhance the properties of extracted starches as renewable alternatives to petrochemical polymers. This project will open up our understanding of the structure of starch polymers and show how this relates to important properties such as enzyme digestibility rates, leading to new opportunities for public health and commercial benefits.Read moreRead less
Characterisation and selection of phytocompound and physical seed quality characters of chickpea (Cicer arietinum). To develop and expand both value and volume of the Australian market share for chickpea. Retention and expansion of existing markets will occur through improved seed physical traits such as size, colour and processing efficiency, whilst creation of new markets will be achieved through enhancing novel traits such as the level of phytocompounds. In collaboration with Victoria's Dep ....Characterisation and selection of phytocompound and physical seed quality characters of chickpea (Cicer arietinum). To develop and expand both value and volume of the Australian market share for chickpea. Retention and expansion of existing markets will occur through improved seed physical traits such as size, colour and processing efficiency, whilst creation of new markets will be achieved through enhancing novel traits such as the level of phytocompounds. In collaboration with Victoria's Department of Primary Industry staff, genes governing chickpea quality traits will be characterised through applying novel combinations of selection and analytical methods. A multidsciplinary team of plant breeders, grains chemists and molecular biologists will advance chickpea breeding in Australia by applying cutting-edge technologies.Read moreRead less