Young Onset Colorectal Cancer: Genetics Pathology And Environment
Funder
National Health and Medical Research Council
Funding Amount
$439,180.00
Summary
There has been a steady increase since 2002, in the age-standardised incidence of CRC in males under 45 years in Australia, contrasting with the stabilisation in incidence of CRC in males of age 45 years and over. Persons under 50 years are not routinely screened unless they have a significant family history of CRC. Young-onset rectal cancer is associated with late presentations and with a higher mortality. This proposal will address the possible risk factors for young-onset CRC.
Clinical, Environmental And Genetic Factors And The Risk Of Oesophageal Cancer
Funder
National Health and Medical Research Council
Funding Amount
$145,685.00
Summary
Oesophageal cancer is a rapidly fatal disease which is becoming more common in Australia, the United States and other industrialised nations. This study will examine the mechanisms leading to the development of oesophageal cancer and aims to measure the effects of genes and environment on the burden of cancer. Ultimately, this research will help target persons at highest risk so that screening, prevention and surveillance efforts can be directed more effectively.
Predicting The Individual Risk Of Prostate Cancer In Australian Men
Funder
National Health and Medical Research Council
Funding Amount
$348,656.00
Summary
Prostate cancer is a major cause of disability and death in Australian men. A number of factors, particularly age and family history, influence the risk of prostate cancer but, in contrast to breast cancer, we don't know what is the risk of developing prostate cancer over a period of time for a man with a specific set of risk factors. In fact, while a number of statistical models have been developed that use a woman's risk factor profile to estimate her risk of breast cancer, none is currently a ....Prostate cancer is a major cause of disability and death in Australian men. A number of factors, particularly age and family history, influence the risk of prostate cancer but, in contrast to breast cancer, we don't know what is the risk of developing prostate cancer over a period of time for a man with a specific set of risk factors. In fact, while a number of statistical models have been developed that use a woman's risk factor profile to estimate her risk of breast cancer, none is currently available for prostate cancer. We will apply standard statistical methods to existing data from the Australian Risk Factors for Prostate Cancer study and from the Australian Institute of Health and Welfare to develop a prostate cancer risk prediction model. We will test how factor like age, detailed family history, diet, baldness status and possibly previous PSA tests and prostate biopsies predict the risk. After developing the model, we will test the accuracy of the predictions in three ways. First, using existing data from the Australian Prostate Cancer Family Study, we will see whether the number of cases in a group of men is close to the number predicted by the model (calibration). Second, to test whether the model discriminate well men who develop prostate cancer from those who do not, we will collect family trees in a sample from the Melbourne Collaborative Cohort Study. We will use these data also to estimate the optimal cut point: men above this level of risk will be considered at high risk. Third, we will apply the model to existing data from the Dutch Prostate Cancer Family Study (DPCFS) to test whether the optimal cut point identify high-risk men and to validate the model in a non-Australian population. Finally, we will prepare a computer package that health professionals will use as decision-making tool in different scenarios including individual cancer risk assessment, design of prevention trials and targeting prevention programs to high-risk men.Read moreRead less
The Relationship Between Environmental Exposures And The Development Of Acute Lymphoblastic Leukaemia In Children
Funder
National Health and Medical Research Council
Funding Amount
$88,141.00
Summary
Leukaemia is the most common childhood cancer and is potentially preventable. Little is known about the causes, although it is likely that both genetic and environmental factors play a role. The early age at diagnosis suggests that exposures before birth or in early childhood, may be involved in its development. This study will investigate whether non-occupational environmental exposures in these key time periods increase the risk of disease and thus may help to prevent the disease.
Which Modifiable Risk Factors Actually Cause Cancer?
Funder
National Health and Medical Research Council
Funding Amount
$384,076.00
Summary
Observational studies suggest that modifiable risk factors such as low vitamin D levels, coffee consumption, alcohol consumption and obesity may be important in cancer risk. However, observational studies can only demonstrate association between a risk factor and cancer, and association does not equal causation. We present an alternative approach to help determine which risk factors actually cause cancer.
Genetic Epidemiology Of Endometrial Cancer: Towards Understanding Aetiology And Improving Risk Prediction.
Funder
National Health and Medical Research Council
Funding Amount
$353,573.00
Summary
Studies investigating thousands of genetic markers have revolutionised our understanding of genes involved in cancer, and shown that a single gene can be associated with multiple cancers. We will conduct the largest ever study to find new genes for endometrial cancer, the most common gynaecological cancer. Our unique approach will examine >11million markers across the genome, some specifically in regions known to be important for other cancers. Findings will be used for risk prediction models ....Studies investigating thousands of genetic markers have revolutionised our understanding of genes involved in cancer, and shown that a single gene can be associated with multiple cancers. We will conduct the largest ever study to find new genes for endometrial cancer, the most common gynaecological cancer. Our unique approach will examine >11million markers across the genome, some specifically in regions known to be important for other cancers. Findings will be used for risk prediction models.Read moreRead less
Identification Of Novel Colorectal Cancer Susceptibility Genes
Funder
National Health and Medical Research Council
Funding Amount
$358,093.00
Summary
Colon cancer is one of the most common cancers, with around 1 million cases diagnosed annually. These cancers can be caused by a combination of lifestyle/environmental and genetic factors. Genetics cause ~30% of colon cancers, although the cause is unexplained in ~2/3 of these cases. The aim of this project is to discover new colon cancer genes by extensive gene sequencing of multi-case unexplained colon cancer families, and screening of additional cases and cancer-free individuals.
Automated Mammographic Measures That Predict Breast Cancer Risk
Funder
National Health and Medical Research Council
Funding Amount
$406,260.00
Summary
Mammographic density (MD) is one of the strongest predictors of breast cancer risk but its impractical measurement prevents its use in a clinical setting. An automated measure of MD would allow screening programs to identify and target women at higher risk of breast cancer which could lead to earlier diagnoses and better breast cancer outcomes. We aim to develop an automated measurement, maximized by its ability to predict breast cancer risk, and applicable to both film and digital mammograms.
The TERT Locus As A Susceptibility Gene For Ovarian And Breast Cancer: Genetic And Functional Evaluation
Funder
National Health and Medical Research Council
Funding Amount
$394,601.00
Summary
Breast and ovarian cancer, which are among the commonest cancers in Australian women, share similar causes. We have found that a gene involved in maintaining the ends of chromosomes increases risk of ovarian cancer. The project aims to explore this further, and also to determine whether it also increases risk of breast cancer.
Circulating Tumour DNA (ctDNA) To Guide Adjuvant Chemotherapy And Surveillance Strategies In Patients With Stage II Colon Cancer
Funder
National Health and Medical Research Council
Funding Amount
$1,227,186.00
Summary
This study is attempting to demonstrate that an adjuvant therapy strategy based on ctDNA results will reduce the number of patients with stage II colon cancer receiving adjuvant chemotherapy without compromising recurrence free survival. Prospective multi-centre study enrolling 450 stage II colon cancer patients. Patients will be randomized 2:1 to be treated according to ctDNA results (Arm A, n = 300), or per standard clinical criteria (Arm B, n = 150).