Creating An Evidence Base For Balanced Sun Exposure Messages For Optimal Health
Funder
National Health and Medical Research Council
Funding Amount
$408,388.00
Summary
Both too much and too little sun exposure result in risks to health, but there are considerable uncertainties in our understanding of the detail, for both risks and benefits. This project focuses on key research gaps that need to be filled before a balanced sun exposure message, appropriate for Australians of different skin types and living in different locations, can be developed and disseminated.
Using Epidemiological Methods To Investigate How Genetic, Environmental And Lifestyle Factors Influence Cancer Incidence And Cancer Survivorship; And Translation Into Cancer Prevention And Policy Outcomes
Funder
National Health and Medical Research Council
Funding Amount
$421,747.00
Summary
This research program focuses on investigating genetic, environmental and lifestyle causes of cancer, preventing new cases of cancer, and improving outcomes after a cancer diagnosis, particularly for melanoma and gynaecological cancer, which carry a heavy burden in the Australian population. The research will also inform the best allocation of health system resources for cancer control, and ensure translation of research findings into cancer prevention, clinical practice and policy outcomes.
Pneumococcal disease is one of the biggest killers of children under 5 years of age worldwide, mostly in developing countries. Pneumococcal conjugate vaccines are highly effective at reducing pneumococcal disease however the duration of protection and the immune factors involved is unknown, particularly when fewer than the recommended number of doses are used. My fellowship aims to examine the key immune factors that provide long-term protection following pneumococcal vaccination.
Systems Immunology Of Antigen Specific T Cells: From Single-cell To Immune Protection
Funder
National Health and Medical Research Council
Funding Amount
$470,144.00
Summary
T cells are key for establishment of immune protection and object of ongoing research in vaccines and more recently immunotherapy against infections and some cancers. Their dynamics are complex and many mechanisms remain unknown that could be exploited for modern therapies. Here, in a systems approach I will combined single cell technologies, immunology and computational biology to identify the factors that determine the establishment of long term memory cells utilising a unique set of samples.