Differentiation of Cord Blood Stem cells into Thymus (T) cells with regulatory phenotype and function. This project will develop technologies for a stem cell therapy platform based on cord blood stem cells, to enable treatment of autoimmune diseases or transplants. Building on the University of Adelaide's frontier demonstration of differentiation of regulatory Thymus (T) cells from cord blood stem cells, the project will develop techniques to expand the numbers of T cells generated. This has the ....Differentiation of Cord Blood Stem cells into Thymus (T) cells with regulatory phenotype and function. This project will develop technologies for a stem cell therapy platform based on cord blood stem cells, to enable treatment of autoimmune diseases or transplants. Building on the University of Adelaide's frontier demonstration of differentiation of regulatory Thymus (T) cells from cord blood stem cells, the project will develop techniques to expand the numbers of T cells generated. This has the potential to maintain Australia's lead in differentiation of cord blood stem cells and to provide a significant breakthrough in potential treatments of autoimmune diseases (e.g. type 1 diabetes) or transplantation. These diseases affect both a healthy start to life and healthy ageing, and an Australian invention to treat or cure them would have global impact.Read moreRead less
DNA methylation-based diagnosis of cancer and identification of novel therapeutic targets. In our aging society, cancer represents a severe economic and quality-of-life threat. DNA methylation switches genes off, and recently, it was shown that defects in DNA methylation contribute to human diseases including cancer. This project will identify defects in DNA methylation associated with cancer. Identifying these defects will enable us to design non-invasive, early diagnostic tests for cancer on b ....DNA methylation-based diagnosis of cancer and identification of novel therapeutic targets. In our aging society, cancer represents a severe economic and quality-of-life threat. DNA methylation switches genes off, and recently, it was shown that defects in DNA methylation contribute to human diseases including cancer. This project will identify defects in DNA methylation associated with cancer. Identifying these defects will enable us to design non-invasive, early diagnostic tests for cancer on blood or bodily excretions, and to pursue novel therapeutic approaches for treating cancer. The expected outcomes would generate exports to markets in the USA and Europe and replace imports of drugs and technology to treat cancer.Read moreRead less
Characterisation and improvement of radiation beams used for radiotherapy of small lesions. This project aims to characterise the radiation dose from a medical linear accelerator after the beam has been shaped by a mini-multileaf collimator. The characterisation will be achieved through a combination of computer simulations and experimental investigation of the beam using the technique of three-dimensional gel dosimetry. When the dosage characteristics are known, techniques will be developed to ....Characterisation and improvement of radiation beams used for radiotherapy of small lesions. This project aims to characterise the radiation dose from a medical linear accelerator after the beam has been shaped by a mini-multileaf collimator. The characterisation will be achieved through a combination of computer simulations and experimental investigation of the beam using the technique of three-dimensional gel dosimetry. When the dosage characteristics are known, techniques will be developed to improve radiotherapy treatments in patients with small lesions with sizes of up to a few centimetres. This will lead to an improved outcome for some cancer patients.Read moreRead less
Defining targets and generating tools/therapeutic agents for prevention, diagnosis and therapy of atherothrombosis. Atherosclerosis and its complications such as myocardial infarction and stroke are a major cause of death and disability in Australia and worldwide. The proposed research program investigates new therapeutic targets and concepts (e.g. targeting of stem cells) to treat atherosclerosis and aims to develop new therapeutic agents using modern biotechnological methods. The project furth ....Defining targets and generating tools/therapeutic agents for prevention, diagnosis and therapy of atherothrombosis. Atherosclerosis and its complications such as myocardial infarction and stroke are a major cause of death and disability in Australia and worldwide. The proposed research program investigates new therapeutic targets and concepts (e.g. targeting of stem cells) to treat atherosclerosis and aims to develop new therapeutic agents using modern biotechnological methods. The project further aims to develop nanoparticle-based diagnostic tools to identify and preventatively treat atherosclerotic plaques that are prone to cause myocardial infarction. The expected outcome will provide direct benefit to patients and create new economic opportunities in Australian bio-/nanotechnology.Read moreRead less
Targeting genes elevated in the athlete's heart to improve function of the failing heart. Cardiovascular disease affects about 3.7 million Australians and heart failure ranks as one of the major killers, representing a huge burden on our health care system and economy. This situation is likely to get worse with an increasing ageing population. Current therapeutics for heart failure patients largely delay disease progression but generally fail in significantly improving heart function and quality ....Targeting genes elevated in the athlete's heart to improve function of the failing heart. Cardiovascular disease affects about 3.7 million Australians and heart failure ranks as one of the major killers, representing a huge burden on our health care system and economy. This situation is likely to get worse with an increasing ageing population. Current therapeutics for heart failure patients largely delay disease progression but generally fail in significantly improving heart function and quality of life. The proposal has focused on targeting the protective effects of 'good' heart growth by identifying genes elevated in the heart in response to exercise. Targeting genes elevated in the athlete's heart to improve function of the failing heart represents a new strategy for the treatment of heart failure.Read moreRead less
Development of Multivalent Hyaluronan Derivative Therapeutics. Over-expression of the hyaluronan receptor CD44 has been identified at pathological sites of diseases such as cancer, psoriasis, arthritis and asthma. The research described in this proposal aims to develop novel therapeutic compounds which target CD44 whilst eliciting a therapeutic index. The design of these new therapeutics is based on a template structure which incorporates known cytotoxic or anti-fungal agentsas well as hyalu ....Development of Multivalent Hyaluronan Derivative Therapeutics. Over-expression of the hyaluronan receptor CD44 has been identified at pathological sites of diseases such as cancer, psoriasis, arthritis and asthma. The research described in this proposal aims to develop novel therapeutic compounds which target CD44 whilst eliciting a therapeutic index. The design of these new therapeutics is based on a template structure which incorporates known cytotoxic or anti-fungal agentsas well as hyaluronan, a naturally occurring carbohydrate, ubiquitous in nature.Read moreRead less
Mammalian chitinases and gene therapy: new weapons to combat fungal and insect attack in mammals. Plants combat fungal and insect attack by producing chitin degrading enzymes. Related, chitinolytic enzymes have been identified in mammals, but their functions are unclear. We found that chitinases from human macrophages inhibited fungal growth. We hypothesise that, like plants, mammalian chitinases are produced to fight chitin containing pathogens. We will transform cells with a chitotriosidase ge ....Mammalian chitinases and gene therapy: new weapons to combat fungal and insect attack in mammals. Plants combat fungal and insect attack by producing chitin degrading enzymes. Related, chitinolytic enzymes have been identified in mammals, but their functions are unclear. We found that chitinases from human macrophages inhibited fungal growth. We hypothesise that, like plants, mammalian chitinases are produced to fight chitin containing pathogens. We will transform cells with a chitotriosidase gene and encapsulate them, creating bioreactors secreting chitinases. Therapeutic effects will be tested by grafting bioreactors to mice inoculated with Aspergillus. The research is a new approach to fighting chitin containing pathogens, with potential applications from parasite infestations in livestock to fungal infections in humans.Read moreRead less
Design and Development of a Low-Cost Portable Biofeedback Device for use in Sleep Induction and Relaxation. This project aims to expand on existing knowledge of the various stimuli used in sleep induction such as photic, auditory and weak electromagnetic stimulation and develop a low-cost portable biofeedback prototype. This novel device will be based on adaptive or fuzzy reasoning algorithms, which would be integrated into the existing ambulatory Siesta EEG recording system, produced by Compume ....Design and Development of a Low-Cost Portable Biofeedback Device for use in Sleep Induction and Relaxation. This project aims to expand on existing knowledge of the various stimuli used in sleep induction such as photic, auditory and weak electromagnetic stimulation and develop a low-cost portable biofeedback prototype. This novel device will be based on adaptive or fuzzy reasoning algorithms, which would be integrated into the existing ambulatory Siesta EEG recording system, produced by Compumedics Ltd. The development of this novel real-time biofeedback prototype will encourage further research using this particular technology to apply it in preventative healthcare in Australian community. The outcome of this proposed bioinstrumentation prototype could possibly expand sleep market to new international level.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0775768
Funder
Australian Research Council
Funding Amount
$400,000.00
Summary
High-throughput automated cell culture facility. This facility, the first of its kind in Australia, is a state-of-the art, robotic technology for large scale cell culture for high throughput production of cells for stem cell biology, drug discovery, and cancer research. It brings together research teams to apply frontier technologies in stem cell biology, genome biology and drug development to better understand and find treatments for diseases, especially brain disorders and diseases. It will be ....High-throughput automated cell culture facility. This facility, the first of its kind in Australia, is a state-of-the art, robotic technology for large scale cell culture for high throughput production of cells for stem cell biology, drug discovery, and cancer research. It brings together research teams to apply frontier technologies in stem cell biology, genome biology and drug development to better understand and find treatments for diseases, especially brain disorders and diseases. It will be located at Griffith University complementing the most advanced suite of high throughput instruments currently available internationally. It will be shared by Australia's leaders in adult stem cell biology, wound repair and natural products drug discovery at Queensland's three leading Universities.Read moreRead less
Topical peptide delivery for cosmetic and therapeutic benefits. Milk is a major Australian agricultural commodity and is now used in a number of topical products for the management of various skin conditions including chafing in babies, eczema and ageing skin. Hence, this work hopes to contribute to promoting and maintaining good health of Australians.
In addition, there is considerable research being conducted on peptide development for a range of diseases and there may be a possibility of ....Topical peptide delivery for cosmetic and therapeutic benefits. Milk is a major Australian agricultural commodity and is now used in a number of topical products for the management of various skin conditions including chafing in babies, eczema and ageing skin. Hence, this work hopes to contribute to promoting and maintaining good health of Australians.
In addition, there is considerable research being conducted on peptide development for a range of diseases and there may be a possibility of delivering these by the skin.
This work, in seeking to understand some of the fundamental determinants governing how exogenously applied peptides distribute in the skin, is also contributing to the development of Australian pharmaceutical and cosmetic industries.Read moreRead less