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Improving Patient Safety In Radiation Therapy With The Watchdog Real-time Treatment Delivery Verification System
Funder
National Health and Medical Research Council
Funding Amount
$593,742.00
Summary
Radiation therapy is a highly effective cancer treatment with extremely high doses delivered using very complex treatment machines. Unfortunately errors have occurred resulting in cases of patient death and mistreatment. We have developed a novel method to assess the treatment delivery in real-time to prevent errors. The method uses imaging devices that are already present on the treatment machine meaning that this method could have a major impact on patient safety in modern radiation therapy.
Design And Application Of New Nanomaterials Theranostic Platforms For Targeted Treatment Of Cancer
Funder
National Health and Medical Research Council
Funding Amount
$530,626.00
Summary
The project aims to develop intelligent drugs that attract to malignant tumors like magnets. These powerful, next-generation chemotherapy drugs seek out cancerous cells, allowing physicians to see exactly where tumours lie. Nanoparticles inside the drugs then switch on upon contact with X-ray radiation beams. This new method, which can diagnose, deliver targeted therapy and monitor the response to therapy all at the same time, would reduce the amount of radiation needed to kill cancer cells.
Fast And Efficient Assessment Of Dose In Small Targets In Radiotherapy: Effect Of Motion In Clinical Research And Implementation Of Dynamic Therapy
Funder
National Health and Medical Research Council
Funding Amount
$501,265.00
Summary
The continued progress of radiation therapy for cancer patients has been driven by technology developments that have increased the complexity of radiation delivery, but has come at the cost of increased potential for errors in radiation planning and delivery. The aim of this project is to implement an instrument for verification of treatment delivered to organs with large variation of shape and position due to respiration. This will enhance treatment outcome and patient quality of life.
Optimising Radiation Therapy Delivery For Cancer Patients Using Daily Image Guidance To Maximize Cure And Reduce Normal Tissue Side Effects
Funder
National Health and Medical Research Council
Funding Amount
$510,968.00
Summary
When using radiotherapy to kill tumours, the radiation beams need to be targeted at the tumour, plus a margin of error around it to ensure that it receives sufficient dose despite uncertainties in its exact location relative to reference points used for beam alignment. Advanced statistical modelling techniques applied to data collected from patients will be used to determine the optimal margin width for individual patients to maximise cancer cure while minimising normal tissue side effects.
Cancer Radiotherapy 2020: Accounting For Tumour Deformation In Real Time To Improve Treatment Outcome
Funder
National Health and Medical Research Council
Funding Amount
$371,616.00
Summary
Tumours in lung and prostate cancer change shape during radiotherapy treatment. This is not accounted for in current care, compromising the therapeutic efficacy. We will develop the first radiotherapy system that can adjust the radiation beam in real time to follow the changing tumour shape. We will assess the performance of the system and quantify the clinical benefit. It is expected that clinical implementation of this technique will improve the cure rates and decrease the treatment toxicity.
A Computerised Treatment Planning System For Synchrotron Radiotherapy Trials At The Australian Synchrotron’s Imaging & Medical Beamline.
Funder
National Health and Medical Research Council
Funding Amount
$646,812.00
Summary
Microbeam Radiotherapy (MRT) using synchrotron-generated X-rays has shown tremendous promise in pre-clinical trials in tumour-bearing rodents, with remarkable sparing of normal tissue. Synchrotron MRT has the potential to radically alter the way radiotherapy is performed for human cancers. Every radiotherapy patient undergoes some form of computerised treatment planning before their treatment starts. We aim to test and implement a synchrotron Treatment Planning System, as an essential step in re ....Microbeam Radiotherapy (MRT) using synchrotron-generated X-rays has shown tremendous promise in pre-clinical trials in tumour-bearing rodents, with remarkable sparing of normal tissue. Synchrotron MRT has the potential to radically alter the way radiotherapy is performed for human cancers. Every radiotherapy patient undergoes some form of computerised treatment planning before their treatment starts. We aim to test and implement a synchrotron Treatment Planning System, as an essential step in realising synchrotron radiotherapy trials.Read moreRead less
Novel MRI Approaches To Map Focal Cortical Dysplasia In Focal Epilepsy
Funder
National Health and Medical Research Council
Funding Amount
$465,489.00
Summary
Focal cortical dysplasia (FCD) is a common cause of focal epilepsy that is resistant to medication. When it can be identified clearly, surgical removal can cure the epilepsy but better methods of detecting and mapping FCD are required because standard imaging techniques are negative in 30% of patients. In this project, we plan to develop new MRI methods to diagnose FCD, thereby creating a new MRI-based diagnostic tool for patients with focal epilepsy who are potential surgical candidates.
A Randomized Controlled Trial Of Three Treatments For Anorexia Nervosa In Adults
Funder
National Health and Medical Research Council
Funding Amount
$606,447.00
Summary
This study will be the first to evaluate three promising new treatments for anorexia nervosa (AN) and anorexic type eating disorders in adults. The first treatment is a new therapy called Enhanced Cognitive Behaviour Therapy. The second treatment, the Maudsley Cognitive Motivational Therapy, was designed specifically to treat AN and the third treatment is called non-specific supportive clinical management. The study will be in the form of a multi-centre randomised treatment trial.