Translation Of Glaucoma Blindness Genes To Improve Clinical Practice
Funder
National Health and Medical Research Council
Funding Amount
$856,795.00
Summary
Glaucoma is a common cause of irreversible blindness. It is currently difficult to predict which patients with the earliest signs of glaucoma will develop blinding stages of the disease. This study will investigate how genes and eye measurements can be used to predict the risk of developing severe glaucoma in people with early signs of disease. This will ensure that high risk individuals can access treatment early, while those at low risk can be spared unnecessary treatment and seen less often.
Identification And Function Of Genes That Increase Risk For Endometriosis
Funder
National Health and Medical Research Council
Funding Amount
$1,180,912.00
Summary
Endometriosis is a common disease that affects 7% of reproductive age women in Australia, resulting in pelvic pain, subfertility and painful periods. We have undertaken genetic studies that identified a number of candidate genes that show strong evidence for increasing a woman’s risk of having endometriosis. We now seek funding to investigate the functional roles that these endometriosis susceptibility genes play within the uterus, with the goal of identifying new treatments for endometriosis.
Gene Tests For Predicting Risk Of Developing Glaucoma
Funder
National Health and Medical Research Council
Funding Amount
$956,020.00
Summary
Glaucoma is a common cause of blindness. It is currently difficult to predict which patients with the earliest signs of glaucoma will go on to develop the blinding stages of the disease. This study will investigate how genes and othe eye measurements can be used to predict risk of developing glaucoma in people with early signs of disease.
Activation Of TERT Gene Expression In Breast Carcinogenesis
Funder
National Health and Medical Research Council
Funding Amount
$693,440.00
Summary
A key step in the development of most cancers is the switching on of an enzyme, telomerase, that allows cancer cells to keep growing without limit. We will study the molecular details of this step using new techniques for functional analyses of the genome in human breast cells grown in the laboratory. Blocking telomerase has great potential for cancer treatment, so analysing how this enzyme gets switched on may identify new strategies for achieving this for breast cancer - and other cancers.
Advanced Whole-genome Approaches For Causative Variant Detection And Individual Risk Prediction Of Complex Traits In Human Populations.
Funder
National Health and Medical Research Council
Funding Amount
$356,014.00
Summary
The genomics era has demonstrated the true complexity of complex genetic traits, but brings promise for personalised genomic medicine in which diagnosis and treatment are tailored to individuals based on profiles recorded in their genome. This project aims to develop advanced statistical methods to better detect causative variants and to better predict an individual’s risk of disease. Our methods may lead to predictions of risk of disease for individuals that have clinical utility.
Risk prediction models incorporating multiple risk factors (including genetic markers) are a recognised method to identify individuals at high risk of developing breast or colorectal cancer, but it is uncertain which model(s) currently perform best in a population setting. We aim to compare the predictive ability of each available model. Knowing which model performs best will facilitate early diagnosis, reduce overall costs by better targeting interventions and improve cancer survival.
Do Breast Cancer Risk Factors Differ According To Underlying Genetic Susceptibility? A Pooled Analysis Of Prospective Studies From The NCI Cancer Cohort Consortium
Funder
National Health and Medical Research Council
Funding Amount
$418,581.00
Summary
We propose to use data from 23 international prospective cohort studies in the Cancer Cohort Consortium organised by the US National Cancer Institute to evaluate gene environment interactions for women who are at increased genetic risk of breast cancer. Our ultimate goal is to enhance the performance of clinical prediction tools and to develop targeted evidence-based strategies to mitigate the high absolute risk of breast cancer for women at increased genetic risk of the disease.
Mapping Plasmodium Falciparum Population Structure And The Source Of Outbreaks In Papua New Guinea
Funder
National Health and Medical Research Council
Funding Amount
$534,786.00
Summary
Molecular studies to map malaria parasite populations are essential for planning and maintaining malaria control in at risk areas. We will develop molecular tools to map malaria parasite populations in Papua New Guinea at high resolution. We will then investigate whether these tools can be used to pinpoint the source of infections in regions where malaria is normally absent. The project will provide valuable information to help focus malaria control efforts to areas where they will be most effec ....Molecular studies to map malaria parasite populations are essential for planning and maintaining malaria control in at risk areas. We will develop molecular tools to map malaria parasite populations in Papua New Guinea at high resolution. We will then investigate whether these tools can be used to pinpoint the source of infections in regions where malaria is normally absent. The project will provide valuable information to help focus malaria control efforts to areas where they will be most effective.Read moreRead less