Scabies is a global disease and a major health problem in many developing countries, related primarily to poverty and overcrowding. In remote Aboriginal communities in northern Australia prevalences of up to 50% in children have been described, despite the availability of effective chemotherapy. Scabies is caused by a tiny mite burrowing under the skin and symptoms include intensely itching lesions that can be very distressing, and often become secondarily infected with Group A Streptococcus. Th ....Scabies is a global disease and a major health problem in many developing countries, related primarily to poverty and overcrowding. In remote Aboriginal communities in northern Australia prevalences of up to 50% in children have been described, despite the availability of effective chemotherapy. Scabies is caused by a tiny mite burrowing under the skin and symptoms include intensely itching lesions that can be very distressing, and often become secondarily infected with Group A Streptococcus. These skin sores can result in serious complications, including blood poisoning and kidney damage. Control of scabies is hindered by difficulties with diagnosis, the cost of treatment, evidence for emerging resistance, and lack of effective vaccines. The symptoms of scabies infestations can mimic many other skin diseases such as dermatitis, eczema, impetigo, and allergic reactions, and traditional tests to diagnose scabies are often less than 50% accurate. Control measures in endemic regions include community-based scabies intervention programs and although successful at reducing levels of scabies in the short term, have proved difficult to sustain due to low levels of scabies persisting within communities. Recent developments leading to expression and purification of scabies mite recombinant antigens have identified a number of molecules with diagnostic potential and this study aims to investigate the accuracy of these recombinant proteins to identify scabies specific antibodies in people with active scabies. An effective simple, cheap, rapid, sensitive and specific diagnostic test for scabies will aid in the early identification of disease and thus treatment. Furthermore it will enable the selective treatment of affected children and their families, reducing the requirement for mass treatment and associated costs, decrease the potential for escalating mite resistance, and provide another means of controlling scabies in highly affected areas.Read moreRead less
Humoral And Neutralising Antibody Responses To Self-adjuvanting Recombinant HCV Virus Like Particles
Funder
National Health and Medical Research Council
Funding Amount
$118,796.00
Summary
Hepatitis C virus (HCV) infects 3% of the world's population and causes an estimated 476,000 deaths per year as a result of HCV associated end-stage liver disease. HCV is one of the most common notifiable infectious diseases in Australia with 16,000 new cases reported annually and a vaccine will reduce the number of new infections. The aim of this project is to develop HCV virus like particles (VLP's) that have the potential for future development of preventative vaccine against HCV.
Detailed Investigation Of The Humoral Immune Response To HCV To Identify Diagnostic And Prognostic Serological Markers
Funder
National Health and Medical Research Council
Funding Amount
$387,466.00
Summary
The prevalence of Hepatitis C in Australia has been estimated at 242 000 people with 80% of infections acquired as a result of infection drug use. The currently available assays can be used to reliably determine the prevalence of Hepatitis C infection but provide no information regarding the incidence of infection. By thoroughly investigating the immune response generated by individuals infected with Hepatitis C we intend to identify interactions which can be used to differientiate between the d ....The prevalence of Hepatitis C in Australia has been estimated at 242 000 people with 80% of infections acquired as a result of infection drug use. The currently available assays can be used to reliably determine the prevalence of Hepatitis C infection but provide no information regarding the incidence of infection. By thoroughly investigating the immune response generated by individuals infected with Hepatitis C we intend to identify interactions which can be used to differientiate between the different stages of infection. The expected outcomes of this study include the identification of a marker of recent Hepatitis C infection. This will permit accurate epidemiological monitoring of Hepatitis C, better design of programs to control the spread, trace outbreaks and manage treatment programs. The identification of a marker capable of predicting the clinical outcome of infection would be invaluable to clinicians, because following acute infection with Hepatitis C, 20 to 30% of individuals will resolve their infection without the need for therapeutic intervention. The information obtained in this study will also lead to a better interpretation of diagnostic laboratory findings, improving our ability to provide clear and accurate reports to blood donors and consequently enhance the Australian blood supply in terms of safety and donor retention.Read moreRead less
Multiple Paths Of TFH Differentiation And Their Impact On B Cell Protection Against Infection
Funder
National Health and Medical Research Council
Funding Amount
$923,466.00
Summary
Collaboration between T and B cells is crucial for immune protection and underpins current vaccine strategies. We have revealed an unappreciated flexibility that exists in T cell responses which varies the instructions they give B cells. It is likely this tailors immune responses to ensure protection to countless infectious diseases. This project uses cutting-edge technologies to understand this flexibility and has important implications for vaccine design and treatment of infectious disease.
I am an immunologist-cell biologist investigating the regulation of human immune responses in health and disease. The overall goal of this work is to improve immunity in individuals with immunodeficiencies, or during vaccination, or to attenuate immune re
Immunomodulatory Molecules Of Parasitic Helminths As Novel Therapeutics For Allergic Disorders.
Funder
National Health and Medical Research Council
Funding Amount
$321,532.00
Summary
Australia has one of the highest rates of asthma in the world with almost 3 million Australians are affected by this disease. Previous research has shown that infection with various types of parasitic worms lessens the severity of asthma. The aim of this research is to find out why this happens and to isolate the ingredients from the parasite that suppress asthma. Once found, these molecules can be used to create new drugs for the prevention of asthma and allergies in children and adults.
Targeting The Human Immune Response To Bacterial Superantigens.
Funder
National Health and Medical Research Council
Funding Amount
$165,424.00
Summary
This research investigates the human immune response to infection with toxin producing bacteria. Toxins activate the human immune system which can lead to serious illness or the development of disease that can progress rapidly and be associated with high rates of morbidity and mortality. Investigating the harmful effects of infection with toxin producing bacteria in humans and the damage caused by their toxins is essential for the development of effective therapeutic strategies.
Understanding the immune response is proving extremely complex and promising results for disease treatments from animal models are often difficult to translate to new clinical therapies. My research is unearthing weaknesses in our current knowledge of the immune system and seeking to replace them with a foundation that can exploit new developments in computer modelling and systems biology. In this way I aim to rationally manipulate the immune response.