The Australian Research Data Commons (ARDC) invites you to participate in a short survey about your
interaction with the ARDC and use of our national research infrastructure and services. The survey will take
approximately 5 minutes and is anonymous. It’s open to anyone who uses our digital research infrastructure
services including Reasearch Link Australia.
We will use the information you provide to improve the national research infrastructure and services we
deliver and to report on user satisfaction to the Australian Government’s National Collaborative Research
Infrastructure Strategy (NCRIS) program.
Please take a few minutes to provide your input. The survey closes COB Friday 29 May 2026.
Complete the 5 min survey now by clicking on the link below.
The Use Of Inulin-based Adjuvants To Enhance The Effectiveness And Population Coverage Of Influenza Vaccination
Funder
National Health and Medical Research Council
Funding Amount
$250,393.00
Summary
A major obstacle in the development of effective vaccines to protect against bird flu (avian influenza) is the difficulty in producing enough vaccine in a short enough time to be able to protect the population should bird flu become a problem in the human population. Our research is focused on a technique to make vaccines much more effective and thereby reduce the amount of vaccine needed for each person. This would allow many more people to be protected with the same amount of vaccine. This tec ....A major obstacle in the development of effective vaccines to protect against bird flu (avian influenza) is the difficulty in producing enough vaccine in a short enough time to be able to protect the population should bird flu become a problem in the human population. Our research is focused on a technique to make vaccines much more effective and thereby reduce the amount of vaccine needed for each person. This would allow many more people to be protected with the same amount of vaccine. This technology is known as a vaccine adjuvant and we have developed a unique adjuvant based on a natural plant sugar called inulin that has the potential to dramatically enhance existing and new flu vaccines.Read moreRead less
Autoimmune Polyendocrine Syndrome Type 1 - A Rare Disorder Of Childhood As A Model Of Autoimmunity
Funder
National Health and Medical Research Council
Funding Amount
$506,943.00
Summary
This project will analyse the mechanisms and causes of diabetes and other autoimmune diseases where the immune system damages particular organs of the body. Diabetes is a national health priority, and autoimmune diseases collectively affect one in every twenty Australians. The project will focus on a recently discovered gene, Autoimmune Regulator (AIRE) that is crucial for protection against autoimmune disease, which Prof Goodnow's team has shown to stop forbidden clones of T lymphocytes in the ....This project will analyse the mechanisms and causes of diabetes and other autoimmune diseases where the immune system damages particular organs of the body. Diabetes is a national health priority, and autoimmune diseases collectively affect one in every twenty Australians. The project will focus on a recently discovered gene, Autoimmune Regulator (AIRE) that is crucial for protection against autoimmune disease, which Prof Goodnow's team has shown to stop forbidden clones of T lymphocytes in the immune system from attacking our own organs. Inherited defects in the AIRE gene cause a devastating illness, Autoimmune Polyendocrine Syndrome 1, and provide an unparalleled insight into mechanisms of common autoimmune diseases such as Type 1 diabetes, thyroid diseases, pernicious anemia, and Addison's disease. By joining forces with Dr H Scott and a multidisciplinary consortium in Europe, Prof Goodnow's team will investigate how the processes controlled by the AIRE gene cooperate with other genes and mechanisms to prevent autoimmune disease. The work will chart the different control systems that normally protect us from autoimmune diseases, and provide a rational basis for developing new ways to treat and prevent autoimmune diseases. The NHMRC funding enables two leading Australian groups at The Australian National University and at the Walter and Eliza Hall Institute to amplify their world-leading individual efforts by leveraging a set of complementary technologies and clinical resources of an interdisciplinary team in Europe. Goodnow's team has already proved the benefit of this type of Australian-European collaboration. Their work discovering the function of the AIRE gene in stopping forbidden T cells depended on a close collaboration with the genetics group in Finland led by Prof Leena Peltonen, whose team had originally discovered the AIRE gene as part of a large European consortium. Scott's team was part of a parallel European-Japanese consortium that discovered the AIRE gene at the same time. The EURAPS project will build on these collaborative discoveries to chart the mechanisms of autoimmune disease and how they can be cured or prevented.The NHMRC funding for the Australian teams is amplified to a multiplier of twenty-fold by European funding for the overall EURAPS project. This represents a strategic investment to ensure Australian health research remains at the forefront of advances in prevention and treatment of chronic diseases.Read moreRead less
Assessment Of Alpha-galactosylceramide As A Novel Adjuvant For Pandemic Influenza: A Virua Vaccine
Funder
National Health and Medical Research Council
Funding Amount
$220,042.00
Summary
The occurrence of human infections with pathogenic avian H5N1 Influenza A viruses was the first documentation of these viruses demonstrating an ability to directly transmit from birds to humans. The virulent nature of these infections, and the fact that there is no pre-existing immunity to these viruses in the human population has raised the concern that these viruses may emerge to cause the next influenza pandemic. Vaccination is our most effective way of protecting against influenza infection, ....The occurrence of human infections with pathogenic avian H5N1 Influenza A viruses was the first documentation of these viruses demonstrating an ability to directly transmit from birds to humans. The virulent nature of these infections, and the fact that there is no pre-existing immunity to these viruses in the human population has raised the concern that these viruses may emerge to cause the next influenza pandemic. Vaccination is our most effective way of protecting against influenza infection, however there are no commercially available avian influenza vaccines available. Moreover, recent evidence suggests current vaccines strategies may be less than effective. This proposal aims to evaluate the efficacy of a novel vaccine strategy that promotes immune protection against a potential pandemic influenza strain.Read moreRead less
Age Of Exposure And Immunity To Malaria In Infants
Funder
National Health and Medical Research Council
Funding Amount
$322,000.00
Summary
The development of naturally acquired immunity (NAI) against Plasmodium falciparum (P.falciparum) malaria is poorly understood. Previous studies of continuous and intermittent chemoprophylaxis in infants have provided evidence that the age of first exposure to P.falciparum during infancy may be important in determining the development of NAI, as measured by incidence of clinical malaria during the second year of life. These studies suggest that exposure to P. falciparum prior to 5 months of age ....The development of naturally acquired immunity (NAI) against Plasmodium falciparum (P.falciparum) malaria is poorly understood. Previous studies of continuous and intermittent chemoprophylaxis in infants have provided evidence that the age of first exposure to P.falciparum during infancy may be important in determining the development of NAI, as measured by incidence of clinical malaria during the second year of life. These studies suggest that exposure to P. falciparum prior to 5 months of age does not result in the development of NAI, while exposure to P. falciparum after 5 months of age leads to development of NAI. The overall objective is to evaluate the effect of exposure to P. falciparum erythrocytic stage antigens during different periods of infancy on the development of NAI. In order to explore the effect of age in the build-up of NAI we have designed a 3-arm randomized double-blind placebo-controlled trial in an endemic area of southern Mozambique in which we selectively control exposure to P. falciparum at different periods during infancy (2-5 months, 5-10 months or none) with monthly chemoprophylaxis with Sulphadoxine- Pyrimethamine + Artesunate. Infants will be enrolled at birth from HIV-negative women and allocated to one of three cohorts of 98 children each. Participants will be followed up by active and passive case detection and cross-sectional surveys until 24 months of age. The risk of clinical malaria and anaemia during the second year of life will be compared between cohorts, as well as its correlation with the type and quality of immune responses (antibodies to several P. falciparum antigens, cytokines), oxidative stress markers and host genetic factors. These results should shed light on the determinants of the development of anti-P. falciparum responses early in life and the potential constraints to early life immunisation.Read moreRead less