Development Of A Safe Live Genetically Attenuated Blood Stage Malaria Vaccine
Funder
National Health and Medical Research Council
Funding Amount
$822,191.00
Summary
Malaria presents an enormous global health problem, and also has a significant impact on social and economic development in countries where the disease is endemic. Our project will produce a live genetically-modified vaccine against Plasmodium falciparum, the parasite that causes the form of malaria mostly deadly to humans. Our development plan will include the first ever clinical trials of a malaria vaccine of this kind and will look at vaccine safety and effectiveness.
Cachexia is a major side effect of cancer, resulting in significant muscle wasting, fat loss and organ failure. Up to 80% of cancer patients suffer and 25% succumb to this condition. This significantly affects the treatment regimens of cancer patients and affects their quality of life. We have developed monoclonal antibodies that block and reverse cachexia in preclinical mouse cancer models. Our aims are to humanise the antibody and manufacture it for the first clinical trial in humans.
Targeting Complement C5a Receptor 2 As A Disease-modifying Treatment For Motor Neuron Disease
Funder
National Health and Medical Research Council
Funding Amount
$636,329.00
Summary
Motor neuron disease (MND) is a devasting terminal condition that has no effective treatment. We have identified a novel drug which inhibits an immune protein that can potentially treat MND. In this project we will test this drug in rodent models of MND, and validate its effectiveness in relevant MND immune cells. Ultimately, this project will identify a new potential drug for MND.
Targeting Ribosomal RNA Transcription With CX-5461 As A New Approach For Treating Cancer
Funder
National Health and Medical Research Council
Funding Amount
$864,067.00
Summary
We have made the fundamental discovery that ribosomal gene transcription is not simply a 'house keeping' process in cancer cells but is required to maintain malignant cell viability. Strikingly inhibition of ribosomal gene transcription using a novel small molecule inhibitor, CX-5461, shows profound selectivity for malignant cells over normal cells. This proposal will translate these observations into 'first in man' phase 1 clinical trials of CX-5461 for the treatment of blood cancers.
Development Of An Extended Release Oral Formulation Of Milrinone For Patients With Advanced Heart Failure
Funder
National Health and Medical Research Council
Funding Amount
$467,083.00
Summary
Heart failure is a debilitating condition associated with frequent hospitalization. Milrinone is an effective intravenous drug used to treat acute deteriorations. Previously, oral milrinone failed because of the lack of availability of appropriate formulations. We have developed an oral formulation which provides stable release of the medication. This application will evaluate the effectiveness of the drug in man and provide the documentation to take the project forward for partnership with indu ....Heart failure is a debilitating condition associated with frequent hospitalization. Milrinone is an effective intravenous drug used to treat acute deteriorations. Previously, oral milrinone failed because of the lack of availability of appropriate formulations. We have developed an oral formulation which provides stable release of the medication. This application will evaluate the effectiveness of the drug in man and provide the documentation to take the project forward for partnership with industry as a means to clinical translation.Read moreRead less
Skin Patch Technology For Fast And Simple Monitoring Of Disease
Funder
National Health and Medical Research Council
Funding Amount
$826,064.00
Summary
Micropatch kits will be developed to capture and detect disease-related biomarkers from the skin for diagnostic monitoring, without the need for needles, trained practitioners or expensive laboratory infrastructure
Breathe Well: Improving Cancer Imaging And Targeted Radiotherapy Using Audiovisual Biofeedback
Funder
National Health and Medical Research Council
Funding Amount
$606,847.00
Summary
Irregular breathing causes anatomical errors in medical images and consequently cancer targeting accuracy, resulting in poorer clinical outcomes and increased health care costs. We have developed and patented the Breathe Well Audio Visual (AV) biofeedback device, to improve breathing regularity. Our goal is to gather critical scientific information and reach commercial proof-of-concept objectives that will allow us to attract investment to establish a viable medical device enterprise.
Low Cost Smart Screening System For Sight Threatening Eye Disease: Diabetic Retinopathy
Funder
National Health and Medical Research Council
Funding Amount
$529,079.00
Summary
The aim of the project is to develop an automated disease grading and clinical decision support system for diabetic retinopathy (DR) to perform eye screening by primary care providers and nurses. The grading system will automatically extract DR pathology from a patient’s color fundus images by image processing, feature detection and machine learning algorithms. Based on the detected information, the system can classify the patient as non symptom or a specific disease level.
Formulation Of A Pan-species, Multi-stage Vaccine For The Malaria Eradication Agenda
Funder
National Health and Medical Research Council
Funding Amount
$777,611.00
Summary
GNT 1093311 entitled 'Formulation of a pan-species, multi-stage vaccine for the malaria eradication agenda' seeks to undertake the preclinical development of a saccharide conjugate vaccine directed towards all major species and stages of malaria. The objectives are: (i) to undertake the synthesis of the vaccine construct; (ii) to compare immunogenicity, formulation and efficacy of various vaccine constructs with a view to down-selecting the optimal combination to take to human clinical trial.
Harnessing Anticalin Technology As A Multi-targeted Treament Approach For Vision Loss
Funder
National Health and Medical Research Council
Funding Amount
$627,273.00
Summary
Diabetes is a leading cause of vision loss and blindness worldwide and is caused by two factors called VEGF and Ang2, which damage blood vessels. Current treatments only block VEGF and many patients do not respond and suffer irreversible damage to sight. We have used ground-breaking anticalin technology to make a new drug (PRS-AUS1) that blocks both VEGF and Ang2. Studies will be performed in animal models and move to patients where we expect improved outcomes compared to current treatments.