Exploration Of The Role Of Microbes In Gastrointestinal Diseases
Funder
National Health and Medical Research Council
Funding Amount
$687,974.00
Summary
This fellowship will investigate diseases of the gastrointestinal tract of children. The research program will undertake a range of is a highly innovative projects including; development of an effective rotavirus vaccine to be administered to newborns; genetic characterisation of rotavirus strains able to escape vaccine protection; and how alterations in the human gut microbiome (bacteria and viruses) influence the development/relapse of CrohnÍs disease.
Translation Of Genetic Findings Into Improved Health Outcomes For Common Eye Diseases In Our Society
Funder
National Health and Medical Research Council
Funding Amount
$675,736.00
Summary
Associate Professor Paul Baird of the Centre for Eye Research Australia, University of Melbourne specialises in identifying and understanding how genetic changes are involved in causing the commonest causes of vision loss and blindness in our society including age related macular degeneration, short-sightedness and glaucoma. His Fellowship will be used to better understand how genes and environment cause these diseases, allowing translation of findings intto new and improved treatments for patie ....Associate Professor Paul Baird of the Centre for Eye Research Australia, University of Melbourne specialises in identifying and understanding how genetic changes are involved in causing the commonest causes of vision loss and blindness in our society including age related macular degeneration, short-sightedness and glaucoma. His Fellowship will be used to better understand how genes and environment cause these diseases, allowing translation of findings intto new and improved treatments for patients.Read moreRead less
Ovarian and endometrial cancer affect >3,200 women each year in Australia and 3 or 4 women die from these cancers every day. The overall aim of my program of research is to reduce the burden of these cancers in future generations of Australian women by increasing our understanding of (i) what causes them, (ii) how we can optimise patient management to enhance patient outcomes and (ii) how lifestyle changes might improve quality and life and survival, for women who are diagnosed with them.
Breast And Ovarian Cancer: Beyond Genome Wide Association Studies
Funder
National Health and Medical Research Council
Funding Amount
$863,910.00
Summary
My research is focused on using genetic approaches to understand the basis of cancer, particularly breast and ovarian cancer. Although many risk factors have been identified for these cancers, they do not lend themselves to primary prevention, except for high risk individuals who opt for prophylactic surgery, and so there is an urgent need to understand the aetiology of these cancers in order to develop better risk prediction algorithms and risk reduction medications.
It is self-evident that people should be able to go to work and know that their work is not giving them cancer. Despite modern health and safety laws, about 5000 Australians a year contract cancer related to their previous work exposures. My research provides evidence to link chemical and other exposures at work with later cancer development. I also develop new methods to accurately assess past exposure to chemicals. The aim of my research is to make the workplace safer.
My research aims to (1) find ways to minimise the impact of pancreatic cancer through improved prevention, diagnosis and management; (2) contribute to the vigorous international debate about the benefits of vitamin D and the best way to balance the harms and benefits of sun exposure.
Cancer is a genetic disease – it occurs because of genetic changes in the body that change how a cell grows, and because it occurs more often in people who have an inherited predisposition to cancer. My aim is to uncover more of the genetic events that give rise to cancer, particularly of the breast, ovary and stomach, so that we can identify people at high risk, and advice them accordingly, and also so that we can devise better treatments directed at particular genetic alterations.
Genetics And Genomics Of Breast And Ovarian Cancer
Funder
National Health and Medical Research Council
Funding Amount
$714,745.00
Summary
Our knowledge of the number and nature of the genes involved in breast and ovarian cancer is limited. To rapidly define the critical breast and ovarian cancer-causing genes my laboratory uses an integrative genomics approach whereby information from several genome-wide platforms are combined. A key initiative that will underpin much of our work is Lifepool, which is a unique cohort of 100,000 Victorian women attending BreastScreen that will support a range of research into breast cancer.
Elimination Of Zoonotic Schistosomiasis And Echinococcosis Through Integrated Morbidity Control
Funder
National Health and Medical Research Council
Funding Amount
$898,008.00
Summary
I am a parasitologist researching the biology, immunology and epidemiology of human parasitic worms, particularly the schistosome bloodflukes and the hydatid tapeworms, which cause bilharzia and hydatidosis, diseases of the world’s poorest people that cause both major suffering and economic loss. My goal is to develop new methods, including vaccination, to control and eventually eliminate these parasites.
Immunological Prevention Of Cysticercosis And Hydatid Disease
Funder
National Health and Medical Research Council
Funding Amount
$802,685.00
Summary
Professor Lightowlers’ has developed the world’s most effective vaccines against diseases caused by parasites. The vaccines prevent transmission of parasites from livestock animals to humans. During the next 5 years the vaccines will be produced on a large scale and evaluated in field trials. The products of this research program will make a major contribution to reducing the number of people suffering from parasitic cysts.