Genetic factors responsible for risk of breast and prostate cancer are largely unknown. Mutations in genes currently known to be associated with susceptibility only account for a small proportion of the familial aggregation of these cancers. I will be applying new genetic technology to population-based studies of cancer to identify new genetic and epigenetic markers of cancer risk. I will use this information to improve health care for families with prostate and breast cancer.
Clinical Application Of Genomic Approaches For Cancer
Funder
National Health and Medical Research Council
Funding Amount
$707,370.00
Summary
Cancer is the cause of 1 in 8 deaths worldwide. Cancer occurs due to errors or mutations in the DNA of normal cells. I will identify the mutations in tumour cells, which will tell us: i) How the tumour started and grew ii) How to treat the tumour and kill the cancer The work involves a variety of cancer types including mesothelioma, melanoma, oesophageal and breast cancer. The overall aim is to apply some of the research findings or approaches into patient care to improve patient survival.
As a molecular geneticist, I am interested in how and why genetic mutations occur, how these changes cause disease or disease predisposition, and ways of better treating and monitoring genetic disease. The ‘model diseases’ I am most interested in are blood cell diseases such as autoimmunity (e.g. arthritis) and leukaemias.