Modelling The Effects Of Immunity On Influenza Transmission - Implications For Prevention And Vaccine Development
Funder
National Health and Medical Research Council
Funding Amount
$275,767.00
Summary
There is uncertainty about how many people can be infected by a single person with influenza at the start of an outbreak. Some data suggest that a single generation of transmission can infect 10-20 other people. With such a rate of growth (ie 10-20 fold every 3 days) the spread of an influenza outbreak is virtually unstoppable. Other data suggest that each person with influenza infects less than 2 other people on average. With such a lower rate of growth, control would be more feasible. Our proj ....There is uncertainty about how many people can be infected by a single person with influenza at the start of an outbreak. Some data suggest that a single generation of transmission can infect 10-20 other people. With such a rate of growth (ie 10-20 fold every 3 days) the spread of an influenza outbreak is virtually unstoppable. Other data suggest that each person with influenza infects less than 2 other people on average. With such a lower rate of growth, control would be more feasible. Our project will use data from historic and contemporary outbreaks of influenza and build mathematical models to explain the rate of growth of an influenza outbreak in terms of: 1. The proportion of people exposed to influenza who do not become ill (although there can be evidence of infection if careful studies are made). This proportion is about 33%. 2. The proportion of people who are protected from influenza by immunity, whether induced by vaccination or by past exposure to natural influenza infection (this can vary from 0% in isolated populations which have not seen influenza for many years up to 80 or 90% in urbanised populations that are exposed to influenza almost every season). 3. Different rates of contact between different people and groups of people - some may be exposed so often that their immunity is boosted regularly without them becoming severely ill; others, living in more isolated circumstances, may be rarely exposed, but when they are, they are more likely to become severely ill. 4. The effects of influenza vaccine in inducing protective immunity - it is well known that there is good protection if the vaccine is well matched to the circulating virus. 5. The effects of live virus infection in inducing (short-lived) protection against a wider range of influenza viruses. Our model results will be used to guide vaccine design and pandemic planning.Read moreRead less
Examination Of The Mechanism By Which The Salvador/warts/hippo Complex Restricts Cell Growth And Number
Funder
National Health and Medical Research Council
Funding Amount
$283,767.00
Summary
Cancer is a disease that results from the generation of surplus cells. These extra unwanted cells are produced as a result of excess cell proliferation and impaired programmed cell death. These important processes can be deregulated in cancers as a result of mutations in many different genes. Many genetic lesions have been reported in different types of cancers but many of the genes that are mutated in these diseases have yet to be identified. To isolate new genes involved in cancer we created r ....Cancer is a disease that results from the generation of surplus cells. These extra unwanted cells are produced as a result of excess cell proliferation and impaired programmed cell death. These important processes can be deregulated in cancers as a result of mutations in many different genes. Many genetic lesions have been reported in different types of cancers but many of the genes that are mutated in these diseases have yet to be identified. To isolate new genes involved in cancer we created random mutations in the vinegar fly, Drosophila, and tested their ability to cause solid cancers. Drosophila is an excellent model organism for this study because many of the pathways that are often perturbed in cancer are conserved between humans and flies. Using this approach we identified several known and novel genes that cause cancerous growths. By studying the human counterparts of these novel genes we identified a potential role for some of these genes in the generation of human cancer. Three of these genes, hippo, salvador and warts, appear to act in concert to restrict cell number. In this study we aim to understand the mechanism by which these genes restrict cell number. To do this we will analyze how the activity of this pathway is controlled and in what tissues it functions. We also plan to discover other key components of this pathway that function downstream of hippo, salvador and warts. To perform these experiments we will use a variety in vitro biochemical techniques as well as experiments in tissue culture cells. We will then verify the results of these experiments in the context of a whole animal. By performing these experiments we hope to gain greater insight into the genesis of cancer.Read moreRead less
Defining Genetic And Epigenetic Variation During Early Development
Funder
National Health and Medical Research Council
Funding Amount
$996,075.00
Summary
We all began life with a set of genes inherited from our parents. However, it's now known that from the time we were in the womb onwards that genes can be turned off and on by the environment or even completely lost or gained. Even what your mother ate or how she behaved while she was pregnant could have influenced your future health. Because people are so different, we are studying the subtle differences between twins to tease out the factors that may influence our genes and our health.
Neurocognitive Correlates Of Transition From Ultra-high Risk Mental State To Schizophrenia
Funder
National Health and Medical Research Council
Funding Amount
$1,590,053.00
Summary
Understanding the changes in the brains of young people when they are developing a severe mental illness is the objective of this research. State-of-the-art brain imaging and brain function data will be prospectively collected from more than 500 young people considered at ultra high risk of developing schizophrenia, the most severe of mental illnesses for which no cure exists. We aim to identify early brain changes in schizophrenia, thus allowing for more effective early intervention.
Drinking Patterns, Gender And Social Roles In Alcohol Problems In Victoria, In An International Comparative Context
Funder
National Health and Medical Research Council
Funding Amount
$342,239.00
Summary
The varied impacts of drinking in the family and other gendered relations are an important and understudied aspect of alcohol studies, with general social and policy implications. The proposed research will make an important contribution to developing quantitative research in this area in Australia. The project uses concepts and measures which are novel in an Australian environment, and the international comparative aspect of the project, with comparable questionnaires in a wide diversity of soc ....The varied impacts of drinking in the family and other gendered relations are an important and understudied aspect of alcohol studies, with general social and policy implications. The proposed research will make an important contribution to developing quantitative research in this area in Australia. The project uses concepts and measures which are novel in an Australian environment, and the international comparative aspect of the project, with comparable questionnaires in a wide diversity of societies, is novel and innovative for the alcohol research field in general. Measures of social problems from drinking, and particularly and family and relationship, developed in analysing the study material will be made more broadly available for use in future studies, raising the possibility that the study may serve as a first measurement point for future data-series over time.Read moreRead less