Multivalent drug delivery carrier for the targeted delivery of platinum anticancer agents to hepatocytes. Hepatocellular carcinoma (HCC) is often treated with chemotherapy using cytotoxic drugs. This systemic treatment results in the distribution of the drug throughout the body. Employing a polymer particle as a drug carrier for these drugs ensures a temporal control of the release and therefore supply of the drug within the body. By attaching carbohydrate moieties onto the surface of the polyme ....Multivalent drug delivery carrier for the targeted delivery of platinum anticancer agents to hepatocytes. Hepatocellular carcinoma (HCC) is often treated with chemotherapy using cytotoxic drugs. This systemic treatment results in the distribution of the drug throughout the body. Employing a polymer particle as a drug carrier for these drugs ensures a temporal control of the release and therefore supply of the drug within the body. By attaching carbohydrate moieties onto the surface of the polymer particle the drug carrier can specifically be recognized by cell receptors, thus allowing a targeted delivery of the drug to the desired area in the body. A range of carbohydrate-based drug carriers will be synthesized and tested towards their interaction with hepatocytes to allow optimisation of this drug carrier system.
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Core-shell nanoparticle from polymers with pendant cyclodextrins. A better drug delivery system will be developed for the treatment of cancer with albendazole. These nanoparticles enhance the circulation time in the body, but also facilitate the delivery of the drug to the site of the tumour, which will increase the efficacy of the treatment. The nanoparticles are obtained by processing polymers with pendant cyclodextrin groups, which are a type of complex sugars. Aim of this work is the explora ....Core-shell nanoparticle from polymers with pendant cyclodextrins. A better drug delivery system will be developed for the treatment of cancer with albendazole. These nanoparticles enhance the circulation time in the body, but also facilitate the delivery of the drug to the site of the tumour, which will increase the efficacy of the treatment. The nanoparticles are obtained by processing polymers with pendant cyclodextrin groups, which are a type of complex sugars. Aim of this work is the exploration of synthetic routes to generate nanoparticles. Tailoring the underpinning polymer structure of these nanoparticles will allow the optimisation of the release of albendazole from the drug carrier, thus improving cancer treatment.Read moreRead less
Degradable hollow microspheres for liver cancer treatment. The expected outcome of this multidisciplinary approach is a controlled drug delivery system for the treatment of liver cancer. We aim to increase the understanding of drug release using polymeric microspheres and the influence of the polymer properties on the release kinetics resulting in the tailored drug release for liver cancer treatment. An indepth knowledge in drug delivery can lead to optimised release kinetics leding to an increa ....Degradable hollow microspheres for liver cancer treatment. The expected outcome of this multidisciplinary approach is a controlled drug delivery system for the treatment of liver cancer. We aim to increase the understanding of drug release using polymeric microspheres and the influence of the polymer properties on the release kinetics resulting in the tailored drug release for liver cancer treatment. An indepth knowledge in drug delivery can lead to optimised release kinetics leding to an increased patient convenience and life prolonging treatments.Read moreRead less
Platinum drugs containing core-shell nanoparticles. Many drugs such as cancer drugs contain metal ions. While the therapeutic benefits of metal containing drugs are highly promising, their administration is often accompanied by substantial side effects. Encapsulation of these drugs into nano-sized core-shell particles will prolong the circulation of the drug and therefore reduce the amount of repeated administrations. In addition, the shape and nature of the particle will enable the targeted del ....Platinum drugs containing core-shell nanoparticles. Many drugs such as cancer drugs contain metal ions. While the therapeutic benefits of metal containing drugs are highly promising, their administration is often accompanied by substantial side effects. Encapsulation of these drugs into nano-sized core-shell particles will prolong the circulation of the drug and therefore reduce the amount of repeated administrations. In addition, the shape and nature of the particle will enable the targeted delivery of these drug loaded nanocarriers to the tumor while healthy tissue remains unaffected. Read moreRead less
Functional Electronic Stimulation of Muscles - Development of a Model for Sensory Feedback to Amputees and Vision for the Blind. Electrical stimulation of nerve fibres is an emerging physiological technique with great promise towards rehabilitation. The field lacks techniques for detailed, focal application of stimuli to recruit specific fibres for fine muscle control or conveying useful neurosensory information. The investigator has developed microtechnology for delivering stimuli to 100 sites, ....Functional Electronic Stimulation of Muscles - Development of a Model for Sensory Feedback to Amputees and Vision for the Blind. Electrical stimulation of nerve fibres is an emerging physiological technique with great promise towards rehabilitation. The field lacks techniques for detailed, focal application of stimuli to recruit specific fibres for fine muscle control or conveying useful neurosensory information. The investigator has developed microtechnology for delivering stimuli to 100 sites, conceivably facilitating recruitment of specific fibres within a given bundle. Effects of muscle stimulation are readily measured and shall be used to model and refine techniques for generic high-resolution fibre recruitment. Benefits include, improved muscle control in functional electrical stimulation, sensory perception for amputees and patterned vision from optic nerve stimulation.Read moreRead less
Single-session Introduction of Mutations in Parallel Lines (SIMPL). This project aims to develop a novel method for markedly accelerating production of genetically modified mice, which are a key 'tool' for studying biological processes and diseases. The work plans to take CRISPR, the latest gene-editing technique, to the next level by developing a novel CRISPR-based method to generate different mouse strains with distinct variations of the same gene sequences, at a fraction of the present cost a ....Single-session Introduction of Mutations in Parallel Lines (SIMPL). This project aims to develop a novel method for markedly accelerating production of genetically modified mice, which are a key 'tool' for studying biological processes and diseases. The work plans to take CRISPR, the latest gene-editing technique, to the next level by developing a novel CRISPR-based method to generate different mouse strains with distinct variations of the same gene sequences, at a fraction of the present cost and time. This project should overcome a major barrier to studying gene function with unprecedented detail, thereby opening new avenues for future research into biological processes. Thus, the outcomes from this project should impact on the entire field of biomedical research, and advance Australia's biotech industry.Read moreRead less
Conformal Bionics - addressing the challenges in bringing miniaturised implants to the site of therapeutic delivery. Smaller, more sophisticated, lifetime-implantable bionic devices capable of being placed at the site of therapeutic delivery will facilitate new or improved opportunities for treatment of disease. Three critical areas of research aim to be explored in pursuit of this goal will be addressed within this study: introduction of new fabrication materials that enable devices to conform ....Conformal Bionics - addressing the challenges in bringing miniaturised implants to the site of therapeutic delivery. Smaller, more sophisticated, lifetime-implantable bionic devices capable of being placed at the site of therapeutic delivery will facilitate new or improved opportunities for treatment of disease. Three critical areas of research aim to be explored in pursuit of this goal will be addressed within this study: introduction of new fabrication materials that enable devices to conform to the anatomy of the targeted site of therapeutic delivery; improved means of addressing the data and energy transfer needs of devices implanted in confined spaces; and innovation of novel sensors for testing and monitoring of atmospheric conditions within the implant to anticipate and safely manage issues relating to a breach of hermetic encapsulation barriers.Read moreRead less
Biomaterial applications of synthetic elastin. The grant will develop a new collaboration between two established laboratories. The Weiss Lab (synthetic elastin; University of Sydney, Australia) will send elastin materials to the Langer Lab (interface of biotechnology and materials science; MIT, USA). Prof. Weiss will visit the Langer Lab and be trained in and participate collaboratively in the use of established MIT methodologies that will focus on applications in cardiac tissue engineering, co ....Biomaterial applications of synthetic elastin. The grant will develop a new collaboration between two established laboratories. The Weiss Lab (synthetic elastin; University of Sydney, Australia) will send elastin materials to the Langer Lab (interface of biotechnology and materials science; MIT, USA). Prof. Weiss will visit the Langer Lab and be trained in and participate collaboratively in the use of established MIT methodologies that will focus on applications in cardiac tissue engineering, controlled release of drugs and vocal fold repair. The MIT group will benefit from access to and the use of elastin materials that are developed in AustraliaRead moreRead less
Australian Laureate Fellowships - Grant ID: FL110100196
Funder
Australian Research Council
Funding Amount
$2,638,208.00
Summary
New dimensions in organic bionics. The advent of the next generation of medical bionic devices is critically dependent on advances in multifunctional organic materials that, like living systems, provide spatial and temporal control. These advances will provide a platform to revolutionise medical treatments such as nerve and muscle regeneration, with impact on neural prosthetics.
Ultra-low fouling active surfaces. This project aims to develop chemistries and fabrication approaches through innovative materials evaluation to develop ultra-low fouling active electrode surfaces. Development of ultra-low fouling surfaces will have significant impact in a range of applications where system or device failure is attributed to fouling. The growing field of bionics, where implantable electronic devices interface directly with the nervous system, is one such device. The expected ou ....Ultra-low fouling active surfaces. This project aims to develop chemistries and fabrication approaches through innovative materials evaluation to develop ultra-low fouling active electrode surfaces. Development of ultra-low fouling surfaces will have significant impact in a range of applications where system or device failure is attributed to fouling. The growing field of bionics, where implantable electronic devices interface directly with the nervous system, is one such device. The expected outcomes will be an understanding of the material requirements that lead to the elimination of protein and cell accumulation at surfaces that degrades the performance and lifetime of these implants. The findings will benefit any application where fouling is a problem.Read moreRead less