We have entered an era where it is now possible to sequence an individual's genetic blueprint. In the case of cancer this can be used to determine the genetic damage that has occurred in cancer cells. This fellowship seeks to carry out large scale sequencing of cancer patient and map out the genetic damage that is common to get a handle on what drives the disease. It will also investigate how personalized mutation detection might improve cancer treatment selection for individual patients.
Circulating Tumour DNA As A Noninvasive Biomarker In Melanoma
Funder
National Health and Medical Research Council
Funding Amount
$1,299,114.00
Summary
The expanding repertoire of treatment options in melanoma is bringing into focus the need for improved ways to accurately monitor treatment responses and guide treatment decisions. Many cancers shed small amounts of DNA (ctDNA) into the bloodstream and changes in ctDNA levels have potential to be used as specific markers of response to cancer therapy. This project will evaluate if ctDNA can be used as a form of ‘liquid biopsy’ to guide treatment decisions in patients with melanoma.
Personalised Biomarkers In Breast Cancer Using Circulating Tumour DNA
Funder
National Health and Medical Research Council
Funding Amount
$231,060.00
Summary
The measurement of tumour specific circulating DNA in the blood of women with breast cancer has the potential to be utilised as a personalised biomarker and revolutionise the management of this disease. This project aims to improve our understanding of the relationship between circulating tumour DNA, the progression of cancer, and responses to cancer treatment. Furthermore, it aims to address how this new tool can be integrated into clinical practice to provide benefits for women with breast can ....The measurement of tumour specific circulating DNA in the blood of women with breast cancer has the potential to be utilised as a personalised biomarker and revolutionise the management of this disease. This project aims to improve our understanding of the relationship between circulating tumour DNA, the progression of cancer, and responses to cancer treatment. Furthermore, it aims to address how this new tool can be integrated into clinical practice to provide benefits for women with breast cancer.Read moreRead less
Translation Of PALB2 Genetic Information Into Breast Cancer Clinical Genetic Services
Funder
National Health and Medical Research Council
Funding Amount
$423,081.00
Summary
Today in Australia women attending clinical genetics services and receiving genetic counselling due to a personal and/or family history of breast cancer are not considered for testing of PALB2 despite mounting evidence that the risk of breast cancer in mutation carriers is at least as high as the risk for BRCA2 mutation carriers. This project will provide the evidence base to support the incorporation of PALB2 gene testing into routine clinical genetics services both in Australia and around the ....Today in Australia women attending clinical genetics services and receiving genetic counselling due to a personal and/or family history of breast cancer are not considered for testing of PALB2 despite mounting evidence that the risk of breast cancer in mutation carriers is at least as high as the risk for BRCA2 mutation carriers. This project will provide the evidence base to support the incorporation of PALB2 gene testing into routine clinical genetics services both in Australia and around the world.Read moreRead less
Circulating Tumour DNA Analysis Of Acquired Treatment Resistance In Breast Cancer
Funder
National Health and Medical Research Council
Funding Amount
$511,807.00
Summary
Taxanes are commonly used chemotherapeutic agents in breast cancer, yet treatment resistance remains a significant clinical problem for which new approaches are needed. Many cancers shed small amounts of DNA (circulating tumor DNA (ctDNA)) into the bloodstream, and analysis of ctDNA can allow assessment of tumour specific genomic changes occurring during treatment. This project aims to utilise ctDNA to study acquired treatment resistance to taxane-based chemotherapy in metastatic breast cancer.