The Total Column Carbon Observing Network in the Southern Hemisphere: constraining our understanding of the carbon cycle and climate. The global carbon cycle and the distribution, sources and sinks of greenhouse gases such as carbon dioxide and methane are crucial drivers of climate change. The Total Carbon Column Observing Network (TCCON) measures the amounts of greenhouse and other trace gases in the atmosphere by solar remote sensing from the ground with unprecedented accuracy and precision. ....The Total Column Carbon Observing Network in the Southern Hemisphere: constraining our understanding of the carbon cycle and climate. The global carbon cycle and the distribution, sources and sinks of greenhouse gases such as carbon dioxide and methane are crucial drivers of climate change. The Total Carbon Column Observing Network (TCCON) measures the amounts of greenhouse and other trace gases in the atmosphere by solar remote sensing from the ground with unprecedented accuracy and precision. TCCON data are the "gold standard" for total column measurements and an essential part of greenhouse gas science. They are used to improve knowledge of the carbon cycle and future climate change, both directly and by validating global-scale satellite measurements. This project will continue to expand TCCON in the southern hemisphere and the enhanced scientific understanding it will provide.Read moreRead less
The Contribution of Tropical Cyclones to the Earth Energy Budget. This project aims to quantify the tropical cyclone contribution to the earth energy budget to understand whether tropical cyclones feed back to the climate system. While existing literature focuses exclusively on the effects of climate change on tropical cyclone variability, this project switches this viewpoint around. One possible outcome is a better understanding of long-term tropical cyclone variability. This is particularly im ....The Contribution of Tropical Cyclones to the Earth Energy Budget. This project aims to quantify the tropical cyclone contribution to the earth energy budget to understand whether tropical cyclones feed back to the climate system. While existing literature focuses exclusively on the effects of climate change on tropical cyclone variability, this project switches this viewpoint around. One possible outcome is a better understanding of long-term tropical cyclone variability. This is particularly important for tropical cyclone vulnerable regions including the Australian east coast and the oil and gas industry off the Northwest Shelf. Furthermore, the anticipated knowledge gained by this project will inform international understanding on the impacts of tropical cyclones to the overall climate system.Read moreRead less
Quantum Mechanics and Planetary Atmospheres. The project will increase the visibility and status of Australian research, by the participation of researchers and students in a wide international collaboration, covering experiments, theory, and computation, which will solve a fundamental research problem that has previously defied understanding. The resulting nitrogen model will be relevant to the important fields of global and planetary atmospheric change, and will find immediate application in t ....Quantum Mechanics and Planetary Atmospheres. The project will increase the visibility and status of Australian research, by the participation of researchers and students in a wide international collaboration, covering experiments, theory, and computation, which will solve a fundamental research problem that has previously defied understanding. The resulting nitrogen model will be relevant to the important fields of global and planetary atmospheric change, and will find immediate application in the analysis of results from the NASA missions, Voyager, Cassini, and (later) New Horizons. In the experimental part of the project, an Australian-first extreme-ultraviolet laser facility will be developed which will provide research opportunities complementary to the Australian Synchrotron.Read moreRead less
First Ever System To Continuously And Directly Measure The Internal Anatomy To Guide Breast Cancer Radiation Treatment Under Deep Inspiration Breath Hold
Funder
National Health and Medical Research Council
Funding Amount
$409,766.00
Summary
We propose a first ever system to continuously and directly measure the internal anatomy of the patient during radiotherapy of left sided breast cancer to ensure correct position of patient and radiation beam. The proposed method involves no additional radiation dose to the patient. It relies on existing components of modern radiation treatment machines, requiring no additional equipment, which will make it easy to implement widely.
Improving Radiation Therapy Of Static And Moving Targets Using High Spatial Resolution Real-time Dosimeters
Funder
National Health and Medical Research Council
Funding Amount
$544,425.00
Summary
Radiation therapy is a major oncology modality for cancer treatment and more than 50% of cancer patients can benefit from radiotherapy at some stage of management. This project will develop two real-time, high spatial resolution dosimetry systems for quality assurance of contemporary radiation treatments of static and movable targets. It will be possible to minimize human and robotic system error so as to guarantee accurate cancer treatment delivery and improve the clinical outcomes of radiother ....Radiation therapy is a major oncology modality for cancer treatment and more than 50% of cancer patients can benefit from radiotherapy at some stage of management. This project will develop two real-time, high spatial resolution dosimetry systems for quality assurance of contemporary radiation treatments of static and movable targets. It will be possible to minimize human and robotic system error so as to guarantee accurate cancer treatment delivery and improve the clinical outcomes of radiotherapy.Read moreRead less
Translating Synchrotron Microbeam Radiation Therapy Into A Clinical Reality For Cancer Patients
Funder
National Health and Medical Research Council
Funding Amount
$337,896.00
Summary
The aim of this project is to translate an experimental radiotherapy technique, known as microbeam radiotherapy, into a clinical reality for the benefit of cancer patients world-wide. I propose to achieve this aim by working at the European Synchrotron Radiation Facility (ESRF) in France. The ESRF is Europe’s most powerful synchrotron light source, where a multi-disciplinary team of scientists and physicians are collaborating to treat the first human cancer patients with synchrotron radiation.
The proposed project is part of a research programme aimed at developing a new drug to reduce the side effects of cancer radiotherapy. These side effects result from the radiation damage to normal tissues close to the tumour. Since in many instances the normal tissues at risk are accessible to topical application (eg. skin in breast cancer patients, rectal mucosa in prostate cancer patients, oral mucosa in all patients being treated for tumours in the head and neck region) the concept is very si ....The proposed project is part of a research programme aimed at developing a new drug to reduce the side effects of cancer radiotherapy. These side effects result from the radiation damage to normal tissues close to the tumour. Since in many instances the normal tissues at risk are accessible to topical application (eg. skin in breast cancer patients, rectal mucosa in prostate cancer patients, oral mucosa in all patients being treated for tumours in the head and neck region) the concept is very simple. A drug which makes cells less sensitive to X-rays (these drugs are called radioprotectors) is simply applied topically to the normal tissues at risk. For this purpose, we have developed a new radioprotecting drug called methylproamine which is 100-fold more potent than previously-developed radioprotectors. Unfortunately, methylproamine is not suitable for our purpose because at higher concentrations it is toxic to some cells. This hurdle must be overcome in order to make the project attractive to potential commercial sponsors. Our aim is to modify methylproamine by removing the molecular features that cause the cytotoxicity. We have established that this is feasible, by synthesising and evaluating a small family of methylproamine analogues. Some less toxic family members have already been identified. With this knowledge, we now propose to use special computer programmes to design a much larger family of methylproamine analogues, and to synthesise and test each one in order to identify the most promising candidate for our purpose. Once the efficacy window hurdle is passed, the subsequent milestones to commercialisation and clinical implementation can be addressed, with appropriate sponsorship. An Australian company has already expressed strong interest and is evaluating the opportunity.Read moreRead less
X-RATE: A Novel Radiation Detector Platform To Realize New Opportunities In Radiotherapy At The Australian Synchrotron
Funder
National Health and Medical Research Council
Funding Amount
$347,541.00
Summary
Microbeam Radiation Therapy (MRT) is an emerging X-ray radiosurgery modality that offers new hope for the treatment of brain cancer and other human brain diseases. A tissue equivalent radiation dosimetry system is essential for upcoming MRT human trials to precisely verify treatment plans. We are recognized world leaders in real-time silicon detector instrumentation for radiation dosimetry. We plan to develop and demonstrate X-RATE, the X-ray Real-time Active Tissue Equivalent dosimeter.
REVEALING MOLECULAR MECHANISMS OF THE SYNCHROTRON RADIATION-INDUCED BYSTANDER EFFECT
Funder
National Health and Medical Research Council
Funding Amount
$429,294.00
Summary
Radiotherapy, a major treatment for more than half of cancer patients, is based on the dogma that radiation kills targeted cells. The radiation-induced bystander effect, by which the neighbours of irradiated cells can also damaged, is a new paradigm. What is the "danger signal" which induces DNA damage in un-irradiated normal tissues, and what minimal volume of tissue needs to be irradiated to induce bystander damage? The answers could have a major impact on optimising radiotherapy treatment.
X-Tream: A Realtime X-ray Treatment Monitoring And Dosimetry System For Submillimetric Radiosurgery
Funder
National Health and Medical Research Council
Funding Amount
$408,544.00
Summary
We plan to develop a commercial prototype of a new clinical product called X-Tream, together with pre-clinical experimental and Monte Carlo data to demonstrate its performance in one potential clinical application involving an exciting and rapidly developing radiosurgery technique known as microbeam radiation therapy. We intend to show that the X-Tream system has the demonstrated ability to provide essential measurements with the necessary accuracy to allow for future clinical trials.