Development Of A Chronically Implantable, Miniaturised Device For Monitoring Ventricular Function, To Assist Tracking An
Funder
National Health and Medical Research Council
Funding Amount
$335,000.00
Summary
Heart failure (HF) is increasing - with ~5million sufferers (1-3rd in New York Heart Association Class III-IV i.e. severe cases) in the US alone, and ~12-15 million worldwide. Its management consumes health resources and strains sufferers, families and institutions. The proposed monitoring-management device, chronically implanted by minimally invasive surgery, will track the heart’s pumping pattern. It will allow informed decisions to optimise therapy, thereby improving Quality of Life (QOL), de ....Heart failure (HF) is increasing - with ~5million sufferers (1-3rd in New York Heart Association Class III-IV i.e. severe cases) in the US alone, and ~12-15 million worldwide. Its management consumes health resources and strains sufferers, families and institutions. The proposed monitoring-management device, chronically implanted by minimally invasive surgery, will track the heart’s pumping pattern. It will allow informed decisions to optimise therapy, thereby improving Quality of Life (QOL), decreasing hospitalisations and decreasing healthcare costs. We aim to develop a small, chronically and easily implantable device to track changes in heart function in HF patients.Read moreRead less
A Motion Correction Technique For Accurate PET/CT Brain Imaging In Paediatric And Dementia Patients
Funder
National Health and Medical Research Council
Funding Amount
$190,450.00
Summary
PET-CT imaging is a vital tool in the diagnosis and management of patients with brain disorders including dementia, epilepsy and cancer. However images are often distorted by patient motion, particularly in demented and paediatric patients. The CI has recently developed a motion tracking and correction method to derive images nearly free of motion effects. This aim of this project is to evaluate its impact on image quality in a variety of patients referred for PET- CT brain investigations.
A New Scrambled Antigen Vaccine (SAVINE) Approach: Proof-of-concept In Non-human Primates For HIV-1
Funder
National Health and Medical Research Council
Funding Amount
$120,700.00
Summary
The specific aim of this proposal is to demonstrate, in non-human primates, proof–of-concept of a patented new platform vaccine technology (scrambled antigen vaccine or SAVINE) designed to encode all the protein sequences of an infectious agent, in this case HIV-1. These are arranged as equal-sized, overlapping fragments such that all potential T cell epitopes that are needed to induce broad T-cell-mediated immunity are maintained. The synthetically designed vaccine uses consensus sequences of H ....The specific aim of this proposal is to demonstrate, in non-human primates, proof–of-concept of a patented new platform vaccine technology (scrambled antigen vaccine or SAVINE) designed to encode all the protein sequences of an infectious agent, in this case HIV-1. These are arranged as equal-sized, overlapping fragments such that all potential T cell epitopes that are needed to induce broad T-cell-mediated immunity are maintained. The synthetically designed vaccine uses consensus sequences of HIV-1 to provide universal coverage of the major HIV-1 strains for a global population. The synthetic systematically designed HIV-1 vaccine will be delivered using our newly developed prime-boost immunisation regime that induces particularly high levels of cell-mediated immunity.Read moreRead less
Rapid HIV-1 Tropism Testing Using Novel, Soluble Mimics Of The HIV-1 Coreceptors CCR5 And CXCR4
Funder
National Health and Medical Research Council
Funding Amount
$163,426.00
Summary
This proposal seeks to develop an inexpensive assay to determine whether HIV patients will benefit from treatment with new drugs referred to as CCR5 antagonists. These are effective against HIV strains that use the CCR5 coreceptor, therefore a patient�s HIV coreceptor usage must be assessed before commencing therapy. Current assays are complicated, slow and expensive. Using novel, soluble mimics of the coreceptors we will develop an ELISA based test that can be operated using standard equipment.
Development Of An Assay To Distinguish Between Recent And Established HIV-1 Infection
Funder
National Health and Medical Research Council
Funding Amount
$192,500.00
Summary
We have discovered a marker of recent HIV infection. Further refinement of this assay and fully evaluating it on samples from individuals infected with different subtypes of the virus will result in an HIV incidence assay ready for commercialisation. An assay capable of distinguishing between recently acquired and established HIV infection would be most valuable in establishing the incidence of infection for epidemiological surveys, to clearly identify new infections following vaccine trials and ....We have discovered a marker of recent HIV infection. Further refinement of this assay and fully evaluating it on samples from individuals infected with different subtypes of the virus will result in an HIV incidence assay ready for commercialisation. An assay capable of distinguishing between recently acquired and established HIV infection would be most valuable in establishing the incidence of infection for epidemiological surveys, to clearly identify new infections following vaccine trials and identify HIV infection as opposed to transfer of maternal antibodies in new born infants.Read moreRead less
Development Of Chimeric Hepatitis B Virus Like Particles As A Vaccine Delivery Platform For Multiple HIV-1 Epitopes
Funder
National Health and Medical Research Council
Funding Amount
$139,500.00
Summary
The small envelope protein of hepatitis B virus (HBsAg) can self-assemble into highly organised viruslike particles with about 150 HBsAg-proteins forming a virus-like particle (VLP). VLPs induce an effective immune response, mainly against the exposed major antigenic site, the hydrophilic ‘a’- determinant region. To create a novel HBsAg-specific vaccine vector, foreign epitopes were inserted into the major antigenic site allowing surface orientation of the inserted sequence. Pilot studies involv ....The small envelope protein of hepatitis B virus (HBsAg) can self-assemble into highly organised viruslike particles with about 150 HBsAg-proteins forming a virus-like particle (VLP). VLPs induce an effective immune response, mainly against the exposed major antigenic site, the hydrophilic ‘a’- determinant region. To create a novel HBsAg-specific vaccine vector, foreign epitopes were inserted into the major antigenic site allowing surface orientation of the inserted sequence. Pilot studies involving the vaccination of mice with VLPs containing an epitope derived from the AIDS-virus (human immunodeficiency virus 1, HIV-1) or various hepatitis C virus-specific epitopes resulted in high titre antibody responses. This project aims for the development of a multi-component vaccine targeting a non-structural HIV-1 protein and therefore, avoiding the selective pressure directed against the structural proteins. The non-structural HIV-1 tat-protein is a multi-functional protein with an extracellular mode to sensitise uninfected cells for HIV-1 infection and to reactivate HIV-1 from quiescently infected cells. The use of eight tat-sequences is sufficient to provide coverage against 99% of HIV-1 sequences. We will develop hybrid particles that are composed of different sets of chimeric HBsAg proteins each containing a distinct tat-epitope. With this application, we aim to develop hybrid particles for the delivery of the complete set of tat-epitopes. The hybrid particles will be used for vaccination studies in mice, and the antibodies assessed by an in-vitro assay. This will lead to the development of a therapeutic and-or prophylactic HIV-1 vaccine, which could be used either for mass immunisation or in support of combination drug therapy and would have all the cost and production advantages of the widely used hepatitis B vaccine.Read moreRead less
Development And Prototype Manufacture Of A High-throughput CD4 T-cell Test For Management Of HIV/AIDS Infections
Funder
National Health and Medical Research Council
Funding Amount
$163,150.00
Summary
CD4 T-cells are the target of HIV-AIDS infection, and monitoring of HIV-infected patients for these cells is an essential part of disease management. Current CD4 testing methods rely on expensive equipment and reagents and high levels of training, or else they have low throughput that limits their use. This project will develop a standard laboratory assay method for testing CD4 T-cells, increasing the access of patients to CD4 testing, and to HIV therapy, worldwide.
CHARACTERIZATION AND PURIFICATION OF A NOVEL ANTI-HIV FACTOR
Funder
National Health and Medical Research Council
Funding Amount
$170,810.00
Summary
We have identified biological evidence for a novel anti-HIV factor in a patient who has not progressed to HIV disease in 22 years. We have identified active forms in a solution, which confer potent activity against HIV. This factor helps in creating the pool of specialized antigen presenting cells, which are vital to combating with HIV in vivo. We propose to characterize this factor biologically, proteomically and genomically.