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Translating Research Into HIV-related Health Outcomes In The Developing World
Funder
National Health and Medical Research Council
Funding Amount
$714,745.00
Summary
Professor Crowe's research addresses important health issues for HIV infected people living in resource limited countries. Her team validates low cost point of care tests to monitor HIV infection, including a test she co-developed to determine when to start anti-HIV treatment, and investigates how these low cost tests can improve clinical care of people with HIV and TB. In addition she will determine how changes in the immune system increase the risk of heart attacks in young HIV patients.
I am a cancer researcher trained in cell biology, immunology and molecular oncology. I made major contributions to the discoveries that defects in cell death can cause cancer, autoimmune disease and impair the response of cancers to chemotherapy. My current work aims to reach a detailed understanding of the molecular mechanisms of programmed cell death and to exploit this knowledge to develop novel therapeutics for cancer and autoimmune diseases that can directly activate this process.
This project involves a unique interdisciplinary approach combining bioinformatics, biostatistics and mathematical biology to better understand the dynamics of infection and immunity. Using data from in vitro studies, animal models, and human infections, I aim to understand immune control and pathogen growth and evolution in HIV and malaria infection.
Dissecting Human B-cell Function: From Primary Immunodeficiencies To Chronic Inflammatory Disease
Funder
National Health and Medical Research Council
Funding Amount
$631,370.00
Summary
Despite knowing a lot about immunity in a mice, functional analysis of the human immune system has been a major challenge. I will study defects of immune cells in humans with gene mutations that cause an antibody deficiency. With new insights from these unique clinical samples, I will functionally dissect human immune responses, directly translate these to chronic inflammatory disease, and provide implications for future vaccine development and cancer treatment.
My projects are associated with three research themes: psychological stress, obesity and hypertension. While these projects may appear diverse they are linked, both in terms of the significant co morbidity that they share, and that the underlying pathologies are initiated and sustained, at least in part, by disturbances in sympathetic nervous regulation. My research program will focus on these conditions and, in their content, will aim to develop and implement improved treatment srategies in the ....My projects are associated with three research themes: psychological stress, obesity and hypertension. While these projects may appear diverse they are linked, both in terms of the significant co morbidity that they share, and that the underlying pathologies are initiated and sustained, at least in part, by disturbances in sympathetic nervous regulation. My research program will focus on these conditions and, in their content, will aim to develop and implement improved treatment srategies in these areas of major clinical need.Read moreRead less
This fellowship is to support Professor Stephen Kent in generating new advances in vaccines to prevent HIV (the cause of AIDS) and Influenza (“The Flu”). HIV causes over 1.5 million deaths per year and no vaccine is currently available. Influenza causes around half a million deaths per year. Although the current Influenza vaccine is partially effective, improvements are needed for it to be able to protect against the many different strains of Influenza that can cause infection.
Advancing Nanomedicine Through Particle Technology
Funder
National Health and Medical Research Council
Funding Amount
$876,005.00
Summary
This proposal will support the development of advanced particle systems to improve the delivery of medicines in neurological diseases, HIV, diabetes and cancer. It will provide important insights for particle-based therapeutic delivery that are expected to underpin progress on nanotechnology in the areas of biology and medicine. These developments in nanotechnology-enabled medicines towards commercialisation will ultimately improve the health and quality of life of Australians.
Targeting Host Pathogen Interactions And Signalling Networks To Promote Death Of Infected Cells And Facilitate Pathogen Clearance
Funder
National Health and Medical Research Council
Summary
Preclinical models of infectious diseases including hepatitis B, HIV, tuberculosis and human herpes virus infections will be used to understand how pathogens interact with host cells. With this understanding we aim to identify which host cell signalling pathways play a critical role in limiting or faciliating pathogen persistence. After identifying the important cellular pathways we aim to target these host cell signalling components with clinical stage drugs to promote pathogen clearance.
Towards HIV And Hepatitis C Elimination: Real-world Trials And Innovations In Disease Surveillance
Funder
National Health and Medical Research Council
Funding Amount
$640,210.00
Summary
Over the next five years I will undertake a program of research centred on developing and implementing strategies to help eliminate hepatitis C and HIV as major public health problems. In particular, I will use innovative monitoring systems and field trials to explore ways to diagnose and treat HIV and hepatitis C in vulnerable populations in a more timely way and study the influence this has on reducing the onward transmission of these infections to others.
Research Fellowship In Preventing HIV And HIV-related Cancer
Funder
National Health and Medical Research Council
Funding Amount
$772,490.00
Summary
This fellowship concerns HIV prevention and HIV-related cancer. In HIV prevention, Grulich will evaluate the success of elements of the new biomedical prevention approach to HIV, and highlight areas in which policy action can be taken to substantially reduce HIV transmission. In HIV related cancer, Grulich will determine whether HIV-associated cancers continue to occur at increased rates in the new era of prolonged survival of people with HIV, and investigate preventive approaches.