AI Assisted Continuous Flow Electrochemistry for Pharmaceutical Manufacture. This project aims to develop new chemical manufacturing processes for pharmaceutical products. In collaboration with Sun Pharma, it will tackle the challenge of replacing expensive and toxic chemicals in industrial reactions, to lower cost of manufacturing and improve its sustainability profile. Central to the realisation of this ambition is the use of electrocatalysis, machine learning and implementation of advanced co ....AI Assisted Continuous Flow Electrochemistry for Pharmaceutical Manufacture. This project aims to develop new chemical manufacturing processes for pharmaceutical products. In collaboration with Sun Pharma, it will tackle the challenge of replacing expensive and toxic chemicals in industrial reactions, to lower cost of manufacturing and improve its sustainability profile. Central to the realisation of this ambition is the use of electrocatalysis, machine learning and implementation of advanced continuous flow methods. These electricity- and technology-driven reactions will develop new strategies for the generation of important classes of molecules relevant to the Australia’s pharmaceutical sector, as well as their manufacture at industrially relevant scales.Read moreRead less
The Synthesis and Analysis of Certain Explosives and Illicit Drugs for Improved Forensic Detection. There is an increasing demand within law enforcement agencies, worldwide, for selective and sensitive methods for the determination of illicit substances. Over the last decade Deakin University chemists have played a major role in establishing the utility of chemiluminescent reactions for the determination of a variety of pharmaceutical opiates in process streams. This project seeks to build upon ....The Synthesis and Analysis of Certain Explosives and Illicit Drugs for Improved Forensic Detection. There is an increasing demand within law enforcement agencies, worldwide, for selective and sensitive methods for the determination of illicit substances. Over the last decade Deakin University chemists have played a major role in establishing the utility of chemiluminescent reactions for the determination of a variety of pharmaceutical opiates in process streams. This project seeks to build upon these successes, in order to develop innovative analytical strategies for forensic detection of certain illicit drugs and explosives. The results of this research have the potential to revolutionise key aspects of forensic analysis.Read moreRead less
Study the Utility of Novel Drug Polymer Conjugates. The products likely to arise from the technology described in this proposal could have application in medical, veterinary and agricultural industries. It offers the potential to treat diseases that are at present poorly treated by enabling delivery direct to the diseased organ (e.g. eye - bacterial endophthalmitis). Completion of the project will also assist a fledgling biotech company transition to a development company with a multiple produ ....Study the Utility of Novel Drug Polymer Conjugates. The products likely to arise from the technology described in this proposal could have application in medical, veterinary and agricultural industries. It offers the potential to treat diseases that are at present poorly treated by enabling delivery direct to the diseased organ (e.g. eye - bacterial endophthalmitis). Completion of the project will also assist a fledgling biotech company transition to a development company with a multiple product portfolio, which will have a direct economic benefit to Australia both in terms of potential export earnings and as an employer highly skilled staff. The project will also provide research training and career opportunities for developing Australian based researchers.Read moreRead less
New methodology for the manufacture of opioid pharmaceuticals and the discovery of novel opiate receptor ligands. Semi-synthetic opiates are important analgesic agents and are used in the treatment of alcohol and opiate dependence. This project will focus on the application of new, greener and more efficient methods for the preparation of these medicinal agents.
Development of a Diversity-Oriented Synthesis Platform. Genomic, proteomic and other studies of the molecular basis of disease are providing a constant stream of biomolecular targets for drug discovery. Identifying suitable drugs candidates to affect these targets centres around procuring a suitable library of compounds for screening. This application addresses some of the key issues related to the development of appropriate compound libraries for such screening programs.
Radio-magnetic nanoparticles as bimodal positron emission tomography/magnetic resonance imaging contrast agents for dendritic cell tracking. Biomedical imaging is limited by a lack of commercial dual-mode contrast agents, which may be simultaneously used for magnetic resonance (MR) and positron emission tomography (PET) imaging. This project will develop a nanotechnology-based biocompatible dual-mode contrast agent for simultaneous PET and MR imaging, reducing associated side effects.
The Synthesis and Pharmacological Evaluation of Novel Bivalent Dopamine D2 and Adenosine A2A Ligands for the Treatment of Parkinson's Disease. This program will significantly contribute to the training of highly qualified personnel in the area of organic and medicinal chemistry where there is currently a national shortage. Other benefits are the capacity to advance this critical research in PD and potentially provide substantial national competitive advantages and growth opportunities in the glo ....The Synthesis and Pharmacological Evaluation of Novel Bivalent Dopamine D2 and Adenosine A2A Ligands for the Treatment of Parkinson's Disease. This program will significantly contribute to the training of highly qualified personnel in the area of organic and medicinal chemistry where there is currently a national shortage. Other benefits are the capacity to advance this critical research in PD and potentially provide substantial national competitive advantages and growth opportunities in the global anti-Parkinsonian therapeutics market.Read moreRead less
Applications of the Polonovski Reaction in the Synthesis of Bioactive Opiates. This program will contribute to the training of highly qualified personnel in the area of organic and medicinal chemistry. It will also address the development of improved processes for the large scale preparation of semi-synthetic pharmaceutical opiates in support of one of Australia's important export industries. Furthermore, a greater understanding of the structure-activity relationships of noscapine will make a ....Applications of the Polonovski Reaction in the Synthesis of Bioactive Opiates. This program will contribute to the training of highly qualified personnel in the area of organic and medicinal chemistry. It will also address the development of improved processes for the large scale preparation of semi-synthetic pharmaceutical opiates in support of one of Australia's important export industries. Furthermore, a greater understanding of the structure-activity relationships of noscapine will make a contribution to the overall search for improved anti-cancer agents.Read moreRead less
Structural modification of conus-derived venom peptides- A route to new therapeutics. Current product deficiencies in the area of pain management are forcing the pharmaceutical industry to develop new strategies for achieving analgesia and reduce their dependence on traditional, addictive opiate-based products. Structural modification of Conus derived peptides will provide exciting new leads for achieving effective analgesia.
Advanced framework materials for hydrogen storage applications. This project aims to develop new molecular materials capable of the highly efficient storage of hydrogen gas. Through an innovative interdisciplinary approach that targets the synthesis and detailed characterisation of two classes of molecular material this project expects to generate step-change advances in the understanding of how hydrogen gas uptake relates to the chemical and physical attributes of porous molecular systems. Sign ....Advanced framework materials for hydrogen storage applications. This project aims to develop new molecular materials capable of the highly efficient storage of hydrogen gas. Through an innovative interdisciplinary approach that targets the synthesis and detailed characterisation of two classes of molecular material this project expects to generate step-change advances in the understanding of how hydrogen gas uptake relates to the chemical and physical attributes of porous molecular systems. Significant anticipated outcomes and benefits include the development of new material design approaches that optimise performance across a diverse parameter space, and the generation of advanced new materials worthy of commercial development, spanning small scale mobile to large scale stationary storage applications.Read moreRead less