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.
Assessing Acellular Pertussis Vaccine Effectiveness: Integrating Transmission Models, Genetics And Cohort Data To Inform Policy
Funder
National Health and Medical Research Council
Funding Amount
$429,597.00
Summary
Between 2009-12 a very large epidemic of whooping cough occurred in Australia. More surprisingly during the course of the epidemic the bacteria that cause whooping cough showed genetic changes that seemed to avoid protection provided by the current vaccine against whooping cough in Australia. This grant seeks to use mathematical models of whooping cough transmission to explain how this occurred and to establish whether alternative vaccination strategies might improve the control of this disease.
Vaccination Timeliness In Aboriginal And Non-Aboriginal Infants: Risk Factors For Delayed Vaccination And Impact On Disease Burden—a Record Linkage Study
Funder
National Health and Medical Research Council
Funding Amount
$538,183.00
Summary
Vaccination has had a significant impact, but preventable infections continue to occur, perhaps due to delayed uptake of scheduled doses. For the first time, we will link vaccination and other health records to: provide accurate estimates of the impact of vaccination; identify reasons for delayed vaccination; and quantify the expected reduction in disease burden if vaccination timeliness was improved. The study will help determine who would benefit most from efforts to improve timeliness.
Advanced Population-based Methods To Evaluate And Inform Immunisation Policy And Practice
Funder
National Health and Medical Research Council
Funding Amount
$425,048.00
Summary
Despite the overall success of immunisation programs, preventable infections continue to occur, with Aboriginal children suffering the most. I will study the health and vaccination records for 1.95 million children (98,000 Aboriginal) in New South Wales and Western Australia to see who is most at risk of vaccine preventable infections and why. The findings will aid development of strategies to target high-risk children and to optimise the benefits obtained from Australia’s immunisation program.
Centre Of Research Excellence In Infectious Diseases Modelling To Inform Public Health Policy
Funder
National Health and Medical Research Council
Funding Amount
$2,600,064.00
Summary
Infectious diseases pose a global challenge, with substantial human and economic costs. Mathematical models provide valuable frameworks to assess likely benefits of interventions to control infection spread and burden. Leveraging existing NHMRC support, we will expand modeling capability to inform infectious disease control policy in Australia and our region. Focus areas include vaccine preventable disease, respiratory viruses and emerging pathogens, supported by innovative methods development.
Understanding The Likely Population Impact Of New And Improved Influenza Vaccines
Funder
National Health and Medical Research Council
Funding Amount
$358,678.00
Summary
Influenza causes a large burden of death and disease each year, as well as disruptive pandemics. Vaccines that could protect against more than one season�s flu strains (including new pandemic viruses) would be highly desirable, and may be on the horizon. Our aim is to understand the likely impact of these new vaccines on the way flu viruses spread between people, and change from one season to the next. This information is needed to justify their introduction, and inform their best use.
Spatial Simulation Modelling Of Containment Strategies For Pandemic Influenza
Funder
National Health and Medical Research Council
Funding Amount
$99,927.00
Summary
This research will develop a spatial simulation model to predict the spread of pandemic influenza within Australia. The resulting software program will be readily usable by disease managers, both during and prior to an outbreak, to predict the effect of various containment measures on the size, rate and location of disease spread, through a city, state or the nation. Deployed in _real time� after an outbreak has started in Australia, it will be used to predict infection spread and the containmen ....This research will develop a spatial simulation model to predict the spread of pandemic influenza within Australia. The resulting software program will be readily usable by disease managers, both during and prior to an outbreak, to predict the effect of various containment measures on the size, rate and location of disease spread, through a city, state or the nation. Deployed in _real time� after an outbreak has started in Australia, it will be used to predict infection spread and the containment effect of a range of interventions. The model would use data obtained during initial stages of the outbreak to refine the model, so allowing accuracy in daily spread prediction; similar use of spatial models occurred during the 2001 Foot and Mouth Disease (FMD) outbreak in the UK. In a pre-pandemic period the simulation model will be available to predict the containment effect of a range of response measures, such as travel restrictions, workplace and school closures, vaccination and antiviral usage. Specifically, this project will apply the simulation model to determine optimal use of limited resources such as the _when and where� targeting of antiviral drugs and initial supplies of vaccine.Read moreRead less
Using Total Population Data To Describe The Characteristics Of Respiratory Infections In Order To Predict Future Epidemics And Recommend Vaccination Strategies For Western Australian Children
Funder
National Health and Medical Research Council
Funding Amount
$294,892.00
Summary
Respiratory infections are a major reason for children to go to hospital. I am an epidemiologist and I will be using previously collected and linked laboratory and hospital data from Western Australian children to better understand how these infections flow through the population over different seasons. I will then be able to predict future epidemics of respiratory infections and how different vaccine programs might have an impact in reducing how many children are affected by these infections.
Combining Health, Laboratory And Immunisation Data Sources To Identify Opportunities For The Prevention Of Chest Infections In Young Aboriginal And Non-Aboriginal Children
Funder
National Health and Medical Research Council
Funding Amount
$428,469.00
Summary
Chest infections are one of the major reasons children are admitted to hospital, particularly in Aboriginal children. This project will determine whether current vaccines have reduced hospital visits and how many children are affected by multiple infections. It will also identify where better vaccination programs are needed. This will be done by bringing together and analysing a range of infection and hospital records to paint a true picture of the impact of chest infections in children.
Population-based Data Linkage And Modelling Studies To Evaluate And Inform Australia’s Immunisation Program
Funder
National Health and Medical Research Council
Funding Amount
$311,860.00
Summary
Despite the overall success of immunisation programs, outbreaks of preventable diseases continue and Indigenous children still suffer a higher burden of illness. We will study a cohort of infants in New South Wales and data about their illnesses and vaccinations to provide accurate measures program performance. The findings will aid development of strategies to target high risk children, and more realistic models about future outcomes, so that the benefits of immunisation are optimised.