Severe sepsis is characterised by organ dysfunction secondary to infection, typically bacterial. We will quantify bacteria in the bloodstream of patients with septic shock, the most severe form of sepsis, to determine the relationship between bacterial load and clinical outcomes. We hypothesise that the bacterial load on presentation and the change in bacterial load over time determines survival and the evolution of organ failure in patients with septic shock.
Plasmid Specialisation Modules, Microbial Husbandry And Microbiome Resilience
Funder
National Health and Medical Research Council
Funding Amount
$645,005.00
Summary
The epidemiology of plasmids is chiefly determined by small genetic modules that control their entry to cells, their stability after entry, and their capacity to exclude other related plasmids. Understanding this is important for understanding transmission of antibiotic resistance. It is also essential for our newly proven approach to remove resistance plasmids from bacteria.
Genetic Polymorphisms Associated With Clinical And Dermoscopic Naevus Signature Patterns
Funder
National Health and Medical Research Council
Funding Amount
$842,841.00
Summary
Melanoma is a form of skin cancer that arises from the cells that produce pigment and is a major public health issue in Australia. We will examine the relationship between the form, structure and colour of existing types of moles and their subsequent risk of developing into melanoma. This study will combine dermoscopy, a non-invasive examination technique, with DNA tests of the genes that determine number of naevi, skin, hair and eye colour, aiding in the early prediction and diagnosis of skin c ....Melanoma is a form of skin cancer that arises from the cells that produce pigment and is a major public health issue in Australia. We will examine the relationship between the form, structure and colour of existing types of moles and their subsequent risk of developing into melanoma. This study will combine dermoscopy, a non-invasive examination technique, with DNA tests of the genes that determine number of naevi, skin, hair and eye colour, aiding in the early prediction and diagnosis of skin cancer.Read moreRead less
Harnessing The Type VI Secretion System ‘combat’ Arsenal Of A. Baumannii As A Source Of New Antimicrobials And Antimicrobial Targets
Funder
National Health and Medical Research Council
Funding Amount
$521,557.00
Summary
Infections caused by drug-resistant bacteria represent one of the greatest threats to human health. There is an urgent need to develop novel drugs and treatment strategies to combat infections by these drug-resistant organisms. We have shown that the bacteria A. baumannii uses a needle-like system to deliver lethal toxins into competitors. We will characterize these toxins so that we can manipulate them as weapons for controlling infections with multi-drug resistant bacteria.
Neurodevelopment During Adolescence: A Longitudinal Imaging Study
Funder
National Health and Medical Research Council
Funding Amount
$1,706,589.00
Summary
Adolescence is a risk period for the emergence of psychiatric disorders. It is also a time of rapid change in the brain, but few studies have detailed changes in neurodevelopment during this sensitive period. We will study twins from early adolescence and use brain imaging to investigate changing brain patterns as the brain matures, and thereby, gain insight into factors responsible for increasing our risk or resilience for major mental health conditions and optimal points for intervention.
New Candidate Vaccines To Prevent Tuberculosis: Preclinical Assessment Of Efficacy, Safety And Mechanism Of Protection
Funder
National Health and Medical Research Council
Funding Amount
$594,133.00
Summary
Almost two million people die from tuberculosis (TB) each year. The curent vaccine, BCG, is ineffective at controlling TB and and the type of immune response needed to protect against the disease is poorly understood. We have discovered new antigens of the TB bacterium, and we will combine them with our innovative vaccine technology to develop new vaccines to control TB. We will also try and understand why BCG is not effective, and use this information to further improve TB vaccination.
Exome Sequencing By NGS To Identify Rare Variants Affecting Type 2 Diabetes
Funder
National Health and Medical Research Council
Funding Amount
$570,425.00
Summary
Rates of type 2 diabetes are rising dramatically, and current efforts are failing to stem its progression. More information about why the disease develops is urgently needed. We apply the latest technological innovations in DNA analysis to accelerate the discovery of the mechanism behind the development of type 2 diabetes. This knowledge will lead to new ways to control diabetes through development of novel therapies.
Clinical And Neurobiological Predictors Of Onset Of Major Mental Disorders (mania, Psychosis, Severe Depression), And Associated Functional Impairment, In Adolescent And Young Adult Twins: A Prospective Longitudinal Study
Funder
National Health and Medical Research Council
Funding Amount
$1,356,103.00
Summary
The Brisbane Twin Study is a prospective twin study tracking the real-time developmental trajectories of the onset of anxiety, mood, psychotic or substance misuse disorders through adolescence and young adulthood. This unique study has now reached the point where reassessment (after 20 years) can be performed. We will now determine the extent to which outcomes are predicted by neurobiological and genetic markers. This information is critical to prevention or early intervention strategies.
Antibiotics have different effects on our own bacterial ecology, with sometimes unexpected detrimental effects. In this project, we will study this in detail and particularly address the question of 'good' and 'bad' antibiotics and how to identify them. National antibiotic policy and the deployment of 'decontamination' strategies in the critically ill are directly related issues and we expect to inform these important policy debates.
Understanding The Molecular Basis Of Epididymal Maturation: How Does The Epididymis Modify Spermatozoa, Allowing Them To Recognise The Egg ?
Funder
National Health and Medical Research Council
Funding Amount
$585,898.00
Summary
Male infertility is a significant clinical problem affecting one in twenty Australian men. A common feature of this condition is the sperm’s inability to recognize the egg. Sperm gain this property as they transit an organ known as the epididymis. We have produced genetically modified mice with a specific epididymal defect that prevents sperm-egg recognition. This study will examine the structure of these defective sperm to generate new insights into the molecular basis of sperm-egg interaction.