Platform FoR European Preparedness Against (Re-)emerging Epidemics- Australia
Funder
National Health and Medical Research Council
Funding Amount
$386,463.00
Summary
Infectious diseases rank high among the threats to human wellbeing and prosperity- globalisation, migration, tourism, intensive farming and changing climate enhance the likelihood of emergence of outbreaks of infectious disease. The optimal response to an emerging infectious disease requires the rapid acquisition of new knowledge. This project ensures that Australia can contribute to globally coordinated research that will meet the research challenge associated with any new pandemic infection.
Adapting Pandemic Influenza Interventions And Management To The Newly-emerged Virus
Funder
National Health and Medical Research Council
Funding Amount
$245,098.00
Summary
The Australian Health Management Plan for Pandemic Influenza is based on data from past and current influenza. A newly-emerged influenza strain is likely to differ in some respects. This project will develop practical ways to adapt the management plan to the emerged virus from early pandemic data. It will determine the data needed to do this efficiently, to ensure that Australia receives the greatest benefit from its antiviral drugs, vaccines and other public health interventions introduced.
Macfarlane Adaptive Changes In HIV-1 Subtype C Envelope Glycoproteins Contributing To Pathogenicity.
Funder
National Health and Medical Research Council
Funding Amount
$310,787.00
Summary
HIV exists as multiple subtypes. The most commonly studied is type B (B-HIV). B-HIV is common in developed countries, but accounts for only a small fraction of HIV infections worldwide. Type C HIV (C-HIV) in Africa and Asia accounts for the majority of infections worldwide, yet very little is known about how C-HIV causes AIDS. We aim to understand how C-HIV causes AIDS. This is critical for development of drugs and vaccines specifically designed for those who are most urgently need.
Enhancing Australia's Pandemic Influenza Vaccine Output By Increasing The Yeild Of Vaccine From Eggs
Funder
National Health and Medical Research Council
Funding Amount
$251,517.00
Summary
Influenza epidemics cause significant morbidity and mortality, particularly amongst the young and elderly. Unlike other vaccines, a new flu vaccine formulation needs to be prepared each year from the currently circulating strain. This involves a long process of preparing new seed vaccine stock, which is then tested, manufactured and distributed. The situation is even more complicated by the ability of different influenza strains to reassort with others. An example of current major concern is the ....Influenza epidemics cause significant morbidity and mortality, particularly amongst the young and elderly. Unlike other vaccines, a new flu vaccine formulation needs to be prepared each year from the currently circulating strain. This involves a long process of preparing new seed vaccine stock, which is then tested, manufactured and distributed. The situation is even more complicated by the ability of different influenza strains to reassort with others. An example of current major concern is the possibility of deadly avian flu viruses, such as H5N1, to gain the capacity to directly infect humans by recombining with a human strain and thereby starting a new global pandemic. When the next influenza pandemic occurs, the availability of a vaccine will be of the highest priority and early supply of vaccines will save millions of lives. Since vaccination is the only sustainable defense, we face an urgent need to have the capacity to supply large numbers of vaccine doses of influenza vaccines within a short period of time. Currently, the only way of producing flu vaccines is in eggs. The speed of vaccine supply is totally dependant on the yield of vaccine from eggs and the number of eggs that can be processed at any one time. Since there are severe constraints on the number of eggs that can be simultaneously processed, the limiting factor that can be addressed is the actual yield of vaccine per egg. The aim of this project is the develop methods that allow higher levels of vaccine virus to grow in eggs. We will take a multi-pronged approach to enhancing influenza vaccine production that are directed toward increasing the capacity of eggs to promote virus replication, as well as towards the vaccine strain to boost its ability to replicate in the egg. The outcome will be an enhanced capacity for vaccine manufacturers to quickly and effectively expand vaccine supplies which will directly impact on global morbidity and mortality during a flu pandemic.Read moreRead less
Genomic Analysis Of Host Response To Influenza A Infection
Funder
National Health and Medical Research Council
Funding Amount
$168,530.00
Summary
Influenza virus infects millions of people globally. However, it remains poorly understood why some infected individuals succumb to life threatening complications whilst others recovered relatively unaffected. This study use advance molecular technique to study influenza infection. It aims to identify the key steps in our immune systems that are progressively disrupted during influenza infection and how this process lead to a break down in our natural defence against the virus.
Understanding And Controlling Viral Escape In Influenza
Funder
National Health and Medical Research Council
Funding Amount
$433,156.00
Summary
Introduction of a new influenza strain into human circulation leads to a rapid global spread of the virus (e.g. H1N1-09 pandemic) due to minimal antibody immunity. Established T-cell immunity towards conserved viral regions promotes rapid recovery. However, the protective immunity exerts pressure on influenza, leading to "escape" mutations. We will unravel how the viral mutants emerge and propose strategies for T cell-based protective immunity and vaccine design against influenza.
Sensitive, Rapid And Accurate Detection Of The Emergence Of Neuraminidase Inhibitor Resistance By Real-time PCR, LCR And
Funder
National Health and Medical Research Council
Funding Amount
$118,875.00
Summary
An influenza pandemic causing by highly pathogenic H5N1 virus may occur in the near future. As a vaccine for H5N1 will not be available in the foreseeable months, antiviral drugs are the only possible choice for prophylaxis and treatment. Currently only two drugs have been clinically proven to be effective against H5N1 strain and the emergence of drug resistant in H5N1 influenza virus has been reported which may significantly hamper the treatment. Understanding and monitoring the emergence of th ....An influenza pandemic causing by highly pathogenic H5N1 virus may occur in the near future. As a vaccine for H5N1 will not be available in the foreseeable months, antiviral drugs are the only possible choice for prophylaxis and treatment. Currently only two drugs have been clinically proven to be effective against H5N1 strain and the emergence of drug resistant in H5N1 influenza virus has been reported which may significantly hamper the treatment. Understanding and monitoring the emergence of these drug resistant strains during local spreading will be critical in managing an H5N1 influenza pandemic in Australia. In the proposed project, we will develop important diagnostic tools using our world leading Rolling Circle Amplification (RCA) technology for the monitoring of the development and possible transmission of drug resistant influenza strains. Upon finishing the project, at lease three sensitive diagnostic methods will be developed for the detection of the emergence of drug resistance at the very early stage.Read moreRead less
Australian Partnership (for) Preparedness Research On InfectiouS (disease) Emergencies (APPRISE)
Funder
National Health and Medical Research Council
Funding Amount
$4,996,416.00
Summary
We have assembled national experts in clinical, laboratory and public health research to ensure Australia is equipped for a coordinated, effective and evidence based response to infectious diseases. This multidisciplinary team will create and share new knowledge to detect, prevent and manage emerging infection threats. We will train a robust cross-sectoral work force and develop sustainable research capacity integrated within the health system to ensure national and regional health security.
Comparative Pathophysiology And Clinical Epidemiology Of Knowlesi Malaria
Funder
National Health and Medical Research Council
Funding Amount
$267,172.00
Summary
The simian parasite P. knowlesi is the most common cause of malaria in Malaysia and can cause severe and fatal disease. We are currently conducting a study of all malaria patients admitted to a tertiary referral hospital in Sabah, Malaysia. This will allow us to describe the epidemiological and clinical features of the hospitalised patients, including changes over time. We are also conducting novel pathophysiological studies which will allow us to understand how P. knowlesi causes sever disease.