An International Whole Genome Study To Definitively Map Heritable Risk In Sarcomas
Funder
National Health and Medical Research Council
Funding Amount
$836,550.00
Summary
We want to understand why some people get sarcomas, and others do not. This is likely due to genetic causes, because these cancers affect the young. We now have the tools to address this question, and have created the largest and best characterised study of sarcoma families in the world upon which to apply these tools. This project will create an enduring foundation for research into the genetic basis of sarcomas for the next 20 years.
Information theoretic approaches to optimise genome wide association studies with application to continuous and discrete traits. This project aims to develop new mathematical methods to find genetic associations from new genome-wide studies of colorectal cancer and breast cancer risk factors. If successful, this will result in improved use of expensive genetic data to better predict and understand diseases, conditions and other characteristics for humans, animals and plants.
The Mutational Landscape Of Melanoma In Adolescents And Young Adults
Funder
National Health and Medical Research Council
Funding Amount
$314,644.00
Summary
Melanoma is the most common cause of cancer mortality in 20-34 year olds and many traditional treatments, chemotherapy and radiotherapy cause tremendous long-term damage to growing bodies. Fortunately new drugs that target the genetic mutations are proving effective. Unfortunately, the genomic mutation specific to young melanoma patients are unknown. This study aims to characterising the genomic mutations of young melanoma patients, leading to the discovery of innovative treatment options.
Metagenomic Analysis To Determine The Prostate Microenvironment And The Aetiology Of Inflammatory Mediated Prostate Cancer
Funder
National Health and Medical Research Council
Funding Amount
$339,534.00
Summary
Infectious organisms have been implicated in the development of several different malignancies. This project aims to determine if this may also be applicable in prostate cancer and if so, to define which organism/s may be responsible, thus providing targets for improving diagnosis, treatment and prevention strategies. The approach will be to identify DNA in the prostate tumour tissue that is foreign to the �normal� prostate environment and indicative of an invading organism.
Navigating tipping points in complex dynamical systems. This project aims to use applied mathematics to investigate the onset of tipping points in dynamical systems. Working with clinicians and practicing engineers, the project aims to contribute to the development of new treatment regimes for dynamical diseases and develop improved management strategies for resource focussed engineering industries. This should provide significant benefit to many areas, including the personalised treatment of di ....Navigating tipping points in complex dynamical systems. This project aims to use applied mathematics to investigate the onset of tipping points in dynamical systems. Working with clinicians and practicing engineers, the project aims to contribute to the development of new treatment regimes for dynamical diseases and develop improved management strategies for resource focussed engineering industries. This should provide significant benefit to many areas, including the personalised treatment of disease.Read moreRead less
Inherited determinants of cancer aetiology. Family history of cancer is a strong risk factor for many cancers. This project will aim to identify inherited factors influencing risk of developing cancer and those factors influencing the course of the disease and outcomes.
Tracking The Origins And Drivers Of Metastasis In Prostate Cancer
Funder
National Health and Medical Research Council
Funding Amount
$1,022,600.00
Summary
Prostate cancer is now the most commonly diagnosed cancer but only 10% of men with it, will die from it. Our current ability to discriminate between cancers with an indolent course and those that are lethal is poor. This project will examine the mixture of tumour clones (subclones) that are present in prostate cancers and define and track those cancer subclones that break away from the prostate and lodge in distant sites, causing death.
Molecular Imaging As A Critical Tool In Discovery Of The Basis Of Tumour Heterogeneity And Developing Novel Therapies To Overcome Therapeutic Resistance
Funder
National Health and Medical Research Council
Funding Amount
$467,961.00
Summary
Determining treatment options for cancer currently relies on the size and extent of tumour deposits on imaging, combined with a biopsy. However, this approach fails to recognise the ability of tumours to evolve components that are, or become, resistant to treatment. My laboratory uses advanced molecular imaging, targeted biopsies, animal models and genetic analysis to detect and understand the basis of such resistance and thereby develop new, targeted treatments to improve patient outcomes.
Identifying Resistance Mechanisms Of Targeted BRAF Inhibitors In Metastatic Melanoma
Funder
National Health and Medical Research Council
Funding Amount
$379,015.00
Summary
Late-stage melanoma is an aggressive skin cancer for which traditional treatment strategies such as chemotherapy are ineffective. Recently, a new class of targeted drugs (BRAF inhibitors) has become the standard of care for a subset of melanoma patients; however, long term treatment success is complicated by drug resistance. This study will identify the causes of resistance with the purpose to improve targeted drug strategies and increase survival rates for late-stage melanoma patients.