A Dendritic Cell Subset Targeting Approach For Defining Immune Function And Tailoring Immunotherapy
Funder
National Health and Medical Research Council
Funding Amount
$692,753.00
Summary
Dendritic cells are important sentinel cells of the immune system that orchestrate our immune responses against invading pathogens. There are different types of dendritic cells and they perform different jobs. We have a series of antibodies that can recognise markers on the surface of different dendritic cells populations. We can use these antibodies as homing devices to deliver foreign material to individual dendritic cell subpopulations and thereby manipulate the type of immune response genera ....Dendritic cells are important sentinel cells of the immune system that orchestrate our immune responses against invading pathogens. There are different types of dendritic cells and they perform different jobs. We have a series of antibodies that can recognise markers on the surface of different dendritic cells populations. We can use these antibodies as homing devices to deliver foreign material to individual dendritic cell subpopulations and thereby manipulate the type of immune response generated. Effectively, we aim to tailor immune responses to fight a particular bacteria, virus, parasite, or even cancer cells. The current proposal will extend the number of antibodies we test for their ability to generate tailored immunity. We will examine a number of new molecules for their ability to shuttle foreign material to dendritic cells and their ability to stimulate immune responses. Next, we will test these homing devices as vaccines and their ability to prevent or treat cancer. Our aim is to develop a robust, highly efficient, generic, vaccination approach for cancer immunotherapy.Read moreRead less
A Serotype-independent, Broad Spectrum Pneumococcal Vaccine
Funder
National Health and Medical Research Council
Funding Amount
$955,585.00
Summary
Streptococcus pneumoniae (the pneumococcus) is the world’s most formidable bacterial pathogen, causing 1-2 million deaths each year. Existing vaccines provide protection against only a limited proportion of strains and their widespread use is increasing the prevalence of strains against which the vaccines provide no protection. This project aims to translate a novel broadly protective pneumococcal vaccine into the commercial development pipeline.
Optimising Cervical Screening After The Introduction Of HPV Vaccination In Australia: Modelling Of Outcomes
Funder
National Health and Medical Research Council
Funding Amount
$316,089.00
Summary
This research project will aid decision-making about how best to perform cervical screening in Australia after the introduction of vaccination against the human papillomavirus (or HPV). The project will use computer simulation techniques to explore different scenarios for vaccination and screening and to determine the optimal approach. This project involves a group of international collaborators with expertise in a number of areas including cancer epidemiology, screening for cancer, and computer ....This research project will aid decision-making about how best to perform cervical screening in Australia after the introduction of vaccination against the human papillomavirus (or HPV). The project will use computer simulation techniques to explore different scenarios for vaccination and screening and to determine the optimal approach. This project involves a group of international collaborators with expertise in a number of areas including cancer epidemiology, screening for cancer, and computer simulation methods. HPV is the virus responsible for the development of cervical cancer, and clinical trials have demonstrated that HPV vaccines administered to adoloescent girls are very effective at preventing disease that might have led to cancer in the future. However, Australia currently has a very effective Pap smear screening program, and in the first phase after the introduction of vaccination it will be important for women to continue being screened as usual. In the long term, HPV vaccination is expected to reduce the need for Pap smears. The research will involve a very detailed simulation of how HPV is transmitted in the Australian population, and how this will change after vaccination. The simulation will address questions of importance for any future public HPV vaccination program, such as whether males should be vaccinated as well as females. The simulation will also be used to determine the optimal starting age and frequency of Pap smears in the future. The outcomes of the research will be very important for policy-makers. In the long term, this research will ensure that the best recommendations are formulated for the timing and frequency of Pap smears after HPV vaccination is introduced.Read moreRead less
Evaluation Of Future Cervical Cancer Prevention Strategies In Australia
Funder
National Health and Medical Research Council
Funding Amount
$401,361.00
Summary
The overall aim of the project is to use simulation modelling to perform a detailed epidemiologic and economic evaluation of the role of primary HPV DNA testing in Australia in the context of HPV vaccination. The project involves a collaboration with investigators at the National Cancer Institute USA, to analyse data from large studies conducted around the world and to build an accurate simulation of HPV infection and the development of cervical cancer.
Evaluation Of Primary HPV Testing For Cervical Screening In Australia
Funder
National Health and Medical Research Council
Funding Amount
$701,037.00
Summary
The overall aim of the project is to use simulation modelling to perform a detailed evaluation of new approaches to cervical screening in Australia, taking into account the implementation of the National HPV Vaccination Program. The project involves collaboration between Australian researchers and investigators at the National Cancer Institute USA. We will integrate local and international data to lead the world in understanding how cervical screening should best be performed in the context of H ....The overall aim of the project is to use simulation modelling to perform a detailed evaluation of new approaches to cervical screening in Australia, taking into account the implementation of the National HPV Vaccination Program. The project involves collaboration between Australian researchers and investigators at the National Cancer Institute USA. We will integrate local and international data to lead the world in understanding how cervical screening should best be performed in the context of HPV vaccination.Read moreRead less
A Dendritic Cell Subset Targeting Approach For Generating Humoral Immunity
Funder
National Health and Medical Research Council
Funding Amount
$678,492.00
Summary
Potent vaccination might be achieved by using monoclonal antibodies as magic bullets to target vaccines to special cells in the body. We show that targeting these special cells by using monoclonal antibodies that recognise Clec9A is effective, perhaps because it brings several different immune cells together so that they orchestrate very efficient immune responses. This application investigates how targeting Clec9A allows strong vaccination so that we can apply this to new generation vaccines.
Informing Vaccination Strategies For Pregnant Women Through Linked Population Health Data
Funder
National Health and Medical Research Council
Funding Amount
$318,768.00
Summary
Vaccination during pregnancy has health benefits for mothers and their infants; however, it is a relatively new area of research, and the immediate and long-term consequences for children are currently not well understood. As part of this fellowship, I plan to conduct research into the long-term health impacts of vaccination during pregnancy. This fellowship will build my career as a perinatal epidemiologist and establish expertise in Australia related to vaccines given during pregnancy.
Immunisation In Under Studied And Special Risk Populations: Closing The Gap In Knowledge Through A Multidisciplinary Approach
Funder
National Health and Medical Research Council
Funding Amount
$2,499,969.00
Summary
Much of the vaccine research which informs national policy is conducted by the pharmaceutical industry or by government. However, there are critical research gaps in special-risk and under-served populations where targeted research is not commercially viable. These include research in the extremes of age, Indigenous Australians, migrants, refugees, immunosuppressed and traveller populations. This CRE will address research gaps in such populations, which have not been addressed elsewhere, using n ....Much of the vaccine research which informs national policy is conducted by the pharmaceutical industry or by government. However, there are critical research gaps in special-risk and under-served populations where targeted research is not commercially viable. These include research in the extremes of age, Indigenous Australians, migrants, refugees, immunosuppressed and traveller populations. This CRE will address research gaps in such populations, which have not been addressed elsewhere, using novel, multidisciplinary methods.Read moreRead less
Asia-Pacific Pneumococcal Disease Control In The Pneumococcal Conjugate Vaccine Era
Funder
National Health and Medical Research Council
Funding Amount
$2,500,000.00
Summary
Pneumonia is one of the commonest causes of childhood death worldwide. PCV is a vaccine that prevents pneumonia but it is costly; and causes an increase in disease from strains which are not in the vaccine. Our CRE will address 2 outstanding issues: when to switch from a 3 to 2 dose PCV schedule to make it more affordable; and create new understanding of the non-vaccine strains’ impact on disease in low- and middle-income countries in the Asia-Pacific region.
Investigating The Altered Landscape Of Enteric Viruses Causing Severe Gastroenteritis In Australian Children Following Rotavirus Vaccine Introduction
Funder
National Health and Medical Research Council
Funding Amount
$314,644.00
Summary
The rotavirus vaccines were introduced in Australia in 2007, decreasing rotavirus disease. Rotavirus strains naturally evolve during replication, however, high vaccine coverage in the population creates a new environment with different evolutionary pressures where strains not protected by the vaccines may emerge and become dominant. The diminished circulation of rotavirus may create an environment where other viruses capable of causing childhood gastroenteritis may increase.