Industrial Transformation Research Hubs - Grant ID: IH220100017
Funder
Australian Research Council
Funding Amount
$4,808,669.00
Summary
ARC Research Hub for Advanced Manufacture of Targeted Radiopharmaceuticals. Radiopharmaceuticals are emerging as next generation medical technologies for addressing complex health challenges, and their manufacture offers significant economic benefit to Australia. The ARC Research Hub for Advanced Manufacture of Targeted Radiopharmaceuticals (AMTAR) aims to establish a manufacturing platform for new medical technologies combining innovations in biotechnology and pharmaceutical science. The progra ....ARC Research Hub for Advanced Manufacture of Targeted Radiopharmaceuticals. Radiopharmaceuticals are emerging as next generation medical technologies for addressing complex health challenges, and their manufacture offers significant economic benefit to Australia. The ARC Research Hub for Advanced Manufacture of Targeted Radiopharmaceuticals (AMTAR) aims to establish a manufacturing platform for new medical technologies combining innovations in biotechnology and pharmaceutical science. The program addresses industry-led challenges for translation of biologics as molecular radiopharmaceuticals, building capacity in biomanufacturing, radiobiology and radiochemistry. The program establishes a dedicated manufacturing pipeline, future-proofing production and securing supply chain of next generation medical technologies.Read moreRead less
Early Career Industry Fellowships - Grant ID: IE230100169
Funder
Australian Research Council
Funding Amount
$457,684.00
Summary
Next-generation mRNA manufacturing and analysis technologies. Developing innovations in RNA manufacturing and technology. The project aims to develop cutting-edge manufacturing and analysis technologies by optimising Self-amplifying (SAM) RNA production towards low impurities, creating reliable purification technologies, and filling critical gaps in RNA analysis. The project expects to yield significantly cheaper, higher-quality RNA products and develop novel methods in RNA analysis. The outcome ....Next-generation mRNA manufacturing and analysis technologies. Developing innovations in RNA manufacturing and technology. The project aims to develop cutting-edge manufacturing and analysis technologies by optimising Self-amplifying (SAM) RNA production towards low impurities, creating reliable purification technologies, and filling critical gaps in RNA analysis. The project expects to yield significantly cheaper, higher-quality RNA products and develop novel methods in RNA analysis. The outcomes are expected to revolutionise RNA manufacturing, develop cutting-edge commercialisable IP, scholarly know-how, and galvanise the Australian biomanufacturing sector towards sovereign capability, biosecurity and commercialisation of new animal, human and plant RNA products.Read moreRead less
Engineering Hybrid Materials with Functional Bioactivity in the GI Tract. This project aims to use an advanced particle engineering approach to develop novel biomaterials with multifunctional activities in the gastrointestinal tract. The project expects to generate new fundamental knowledge of the key interfacial processes that control digestion and identify new pathways for modulating gut microbiome composition. By establishing structure-activity relationships through mechanistic in vitro and i ....Engineering Hybrid Materials with Functional Bioactivity in the GI Tract. This project aims to use an advanced particle engineering approach to develop novel biomaterials with multifunctional activities in the gastrointestinal tract. The project expects to generate new fundamental knowledge of the key interfacial processes that control digestion and identify new pathways for modulating gut microbiome composition. By establishing structure-activity relationships through mechanistic in vitro and in vivo models, the knowledge gain will help guide material design for optimised bioactivity. Technology transfer of the lead formulation through quality by design manufacturing practice is anticipated to position the industry partner for future commercial opportunities within the nutraceutical sector.Read moreRead less
Synergising nanoemulsion and lipid biomimetic design for advanced delivery. This project aims to identify the critical design characteristics of lipid formulations of lipid-modified probes or drugs (lipid biomimetics) that together promote integration into lipid absorption pathways and target the lymphatic system that drains the small intestine. This has significant potential since the intestinal lymphatic system is a key immune tissue, the site of immune response to autoantigens and antigens de ....Synergising nanoemulsion and lipid biomimetic design for advanced delivery. This project aims to identify the critical design characteristics of lipid formulations of lipid-modified probes or drugs (lipid biomimetics) that together promote integration into lipid absorption pathways and target the lymphatic system that drains the small intestine. This has significant potential since the intestinal lymphatic system is a key immune tissue, the site of immune response to autoantigens and antigens derived from food and the microbiome. The project will deliver a design roadmap of the required characteristics for lymphatic targeting, and in particular, will identify novel lipid nanoemulsions that work synergistically with lipid biomimetics to enhance lymphatic imaging and delivery applications.Read moreRead less