Bioproduction and bioavailability of steroidal saponins, bioactives in herbal medicines. Steroidal saponins are a class of natural products that are common constituents of many herbal medicines and have been associated with many biological activities. Comprehensive studies into their biological activities are hampered by the small quantities available through isolation and the complexity of synthesis. The aim of this project is to identify, isolate and express the biosynthetic genes responsible ....Bioproduction and bioavailability of steroidal saponins, bioactives in herbal medicines. Steroidal saponins are a class of natural products that are common constituents of many herbal medicines and have been associated with many biological activities. Comprehensive studies into their biological activities are hampered by the small quantities available through isolation and the complexity of synthesis. The aim of this project is to identify, isolate and express the biosynthetic genes responsible for the critical steps in the synthesis of these compounds in the herbs themselves. This will allow for production of steroidal saponins using the isolated enzymes, facilitate biological studies and allow the production of critical standards required by the herbal industry for validation and regulation of herbal extracts.Read moreRead less
Therapeutic pluralism in pregnancy, labour and birthing: Decision-making, communication and inter-professional dynamics. Women are frequent users of practices outside 'mainstream' medicine. Pregnancy, labour and birthing (PLB) is a key area of integration, but no research has examined how women perceive obstetrics, midwifery and complementary medicine, or the impact on their health and wellbeing. This study systematically document Australian women's experiences of PLB with a nationally-represe ....Therapeutic pluralism in pregnancy, labour and birthing: Decision-making, communication and inter-professional dynamics. Women are frequent users of practices outside 'mainstream' medicine. Pregnancy, labour and birthing (PLB) is a key area of integration, but no research has examined how women perceive obstetrics, midwifery and complementary medicine, or the impact on their health and wellbeing. This study systematically document Australian women's experiences of PLB with a nationally-representative sample of women of child-bearing age to document decision making, lay-professional communication, and inter-professional dynamics.Read moreRead less
Navigating back pain care: a sociological study of women's illness pathways within and between intersecting social worlds. Back pain affects most people at some point in their life. It is difficult to treat, choosing a provider can be confusing, and it is costly for the Government. This project will provide comprehensive data on women's journeys through back pain care, their experiences of different providers, and how they negotiate competing ideological perspectives.
The changing landscapes of medical pluralism: a sociological analysis of patient experiences and decision making in Australia, India and Brazil. This project examines the respective roles of biomedicine and traditional, complementary and alternative medicine in supporting health needs in Australia, Brazil and India. It will be the first sociological study to compare how different countries balance biomedical approaches to health with more alternative approaches.
Mechanism of synergy of ingredients in natural products and functional foods. Synergism is the interaction of two substances to produce an effect larger than the sum of the separate effects. This project aims to determine the basic biological mechanisms or molecular targets by which the synergy is occurring and to identify the bioactive compounds involved. Understanding how synergism works should help us to identify other synergistic compounds, allowing optimization of products for better effica ....Mechanism of synergy of ingredients in natural products and functional foods. Synergism is the interaction of two substances to produce an effect larger than the sum of the separate effects. This project aims to determine the basic biological mechanisms or molecular targets by which the synergy is occurring and to identify the bioactive compounds involved. Understanding how synergism works should help us to identify other synergistic compounds, allowing optimization of products for better efficacy and quality, and leading to new products that have a significant market advantage over currently available products. This project will help to develop improved natural products that could push this industry advantage further.Read moreRead less
Pharmacological investigation of medicinal plant products from Kaanju Homelands, Wenlock and Pascoe Rivers, Cape York Peninsula. This research will examine the potential for products to be developed from plants on Kaanju homelands. Kaanju people have an immense ecological knowledge accumulated over generations, about the natural resources in an area recognised as being one of Australia's most biologically diverse. Preservation of this knowledge is critical not only to Kaanju people but to the he ....Pharmacological investigation of medicinal plant products from Kaanju Homelands, Wenlock and Pascoe Rivers, Cape York Peninsula. This research will examine the potential for products to be developed from plants on Kaanju homelands. Kaanju people have an immense ecological knowledge accumulated over generations, about the natural resources in an area recognised as being one of Australia's most biologically diverse. Preservation of this knowledge is critical not only to Kaanju people but to the heritage of the Nation as a whole. The research also addresses the National priority 'Promoting & maintaining good health' through the investigation of novel pharmacological activities in areas of cardiovascular health, diabetes and cancer. The collaborative research partnership will serve as a model to assist other Aboriginal organisations, particularly in rural & remote areas.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE100100001
Funder
Australian Research Council
Funding Amount
$360,000.00
Summary
An advanced thermogravimetric analysis system for world-leading research in clean energy, catalysis, material science and nanotechnology. Many chemical reactions occurring in solid materials during heating significantly affect the materials' stability, and subsequently affects the processes of production of clean energy, material synthesis, catalyst preparation, and nanotechnology. No equipment currently exists in Australia that will mitigate the wide range of conditions in such reactions in ma ....An advanced thermogravimetric analysis system for world-leading research in clean energy, catalysis, material science and nanotechnology. Many chemical reactions occurring in solid materials during heating significantly affect the materials' stability, and subsequently affects the processes of production of clean energy, material synthesis, catalyst preparation, and nanotechnology. No equipment currently exists in Australia that will mitigate the wide range of conditions in such reactions in materials processing. This situation impedes research progress in Australia, disadvantages Australian research students, and ultimately makes our research less competitive internationally. The establishment of the proposed apparatus will increase the competitiveness of Australian science and engineering, and contribute to the development of new Australian technologies that are important to the Australian economy and to environmental sustainability.Read moreRead less
Optimising gaseous and particulate emissions from diesel engines. About $3.7 billion is spent annually in Australia on respiratory diseases. Diesel vehicle emissions of nano- and ultra-fine urban air particulate pollution are a significant factor in this disease. This project will directly addresses this problem by developing a technology to monitor and reduce diesel particulate emissions.
Development of improved technologies for high throughput screening of potential disease susceptibility genes. This research is aimed at developing more efficient strategies to identify genes involved in common, human disorders. We aim to develop cost-effective, high throughput approaches for DNA extraction and preparation, accurately determining DNA concentration and quality and for undertaking extensive polymorphism genotyping and analysis. The suitability of equipment, analysis packages and so ....Development of improved technologies for high throughput screening of potential disease susceptibility genes. This research is aimed at developing more efficient strategies to identify genes involved in common, human disorders. We aim to develop cost-effective, high throughput approaches for DNA extraction and preparation, accurately determining DNA concentration and quality and for undertaking extensive polymorphism genotyping and analysis. The suitability of equipment, analysis packages and software, will be assessed and better technologies and packages developed. The study involves collaboration between a research centre with considerable expertise in molecular genetics and Corbett Research, a leader in the field of molecular equipment production. The development of better gene screening technologies has both molecular and commercial significance.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE200100220
Funder
Australian Research Council
Funding Amount
$760,000.00
Summary
Adaptive Electrical Capacitance Volume Tomography for Multiphase Flows. This project aims to establish a cutting edge adaptive electrical capacitance volume tomography facility for real-time metering / imaging of multi-phase flows. Optimisation of these flows which are encountered in many industries, is paramount in today's carbon-constrained global economy. This project expects to generate the new knowledge necessary for such optimisations. Expected outcomes include enhanced national capability ....Adaptive Electrical Capacitance Volume Tomography for Multiphase Flows. This project aims to establish a cutting edge adaptive electrical capacitance volume tomography facility for real-time metering / imaging of multi-phase flows. Optimisation of these flows which are encountered in many industries, is paramount in today's carbon-constrained global economy. This project expects to generate the new knowledge necessary for such optimisations. Expected outcomes include enhanced national capability for characterisation of multi-phase flows in real-time under both ambient and high temperatures. This should benefit and greatly facilitate the commercial rollout of novel technologies in industrial sectors as diverse as mineral processing, clean energy, fuels/chemicals, oil/gas, food and environmental remediation. Read moreRead less