Development Of A Novel Biosensor Using Magnetically Amplified Luminescence For The Early Detection Of Cancer
Funder
National Health and Medical Research Council
Funding Amount
$267,500.00
Summary
Cancer is often not detected until it has invaded surrounding tissues and spread to other organs. Current treatment is then often ineffective, and prognosis poor. Early detection of cancer is therefore essential for improved disease management. Such methods must be cheap, non-invasive, and rapid with high sensitivity and specificity. We are investigating a new biosensor technology that satisfies these criteria. This method uses magnetically amplified luminescence for the detection of low levels ....Cancer is often not detected until it has invaded surrounding tissues and spread to other organs. Current treatment is then often ineffective, and prognosis poor. Early detection of cancer is therefore essential for improved disease management. Such methods must be cheap, non-invasive, and rapid with high sensitivity and specificity. We are investigating a new biosensor technology that satisfies these criteria. This method uses magnetically amplified luminescence for the detection of low levels of cancer cells in clinical samples (urine, faeces, blood, biopsy), using telomerase as a marker.Read moreRead less
A Novel One-step Approach In The Early Diagnosis Of Prostate Cancer
Funder
National Health and Medical Research Council
Funding Amount
$102,150.00
Summary
In order to avoid the invasiveness and imprecision of current prostate cancer detection, this programme is directed to developing a non-invasive and repeatable, accurate approach. This research project is designed to optimise retrieval of prostate cells from ejaculate and to compare two methods for profiling selected genetic changes to diagnose prostate cancer. The refinement of techniques, outlined in the application, is essential before proceeding to a clinical trial.
Oxidation Of Mismatch: A New Concept For Mutation Detection Which Avoides A Separation Method In Mutation Scanning
Funder
National Health and Medical Research Council
Funding Amount
$143,000.00
Summary
Detection of faults (mutations) in genes is expensive but essential for proper genetic health care. Because of the cost of such tests many people are not diagnosed either through diagnostic labs or research of the cost of such tests many people are not diagnosed either through diagnostic labs or research projects. Such research projects are inhibited due to the complexity of the current methods. Current methods are complex and expensive, especially looking for a possible fault, due to what is ca ....Detection of faults (mutations) in genes is expensive but essential for proper genetic health care. Because of the cost of such tests many people are not diagnosed either through diagnostic labs or research of the cost of such tests many people are not diagnosed either through diagnostic labs or research projects. Such research projects are inhibited due to the complexity of the current methods. Current methods are complex and expensive, especially looking for a possible fault, due to what is called a preparation step on complex and expensive equipment. We will develop and commercialise a simpler test because separation is avoided.Read moreRead less
Development Of Anti-CXCR2 Monoclonal Antibodies For Tumour Therapy
Funder
National Health and Medical Research Council
Funding Amount
$174,867.00
Summary
New therapies to treat cancers and inflammatory diseases are urgently required. Our aim is to develop a new treatment for cancer and inflammation, by blocking the chemokine receptor CXCR2 which is central to angiogenesis (blood vessel growth) and inflammation. We have produced a highly effective monoclonal antibody (mAb) inhibitor of CXCR2, that is suitable for preclinical and clinical development. The project aims to examine the efficacy of this mAb in mouse tumour models and inflammation.
The Development Of Store Operated Calcium Channel Monoclonal Antibody Inhibitors As A Therapeutic Option For Breast Cancer Treatment
Funder
National Health and Medical Research Council
Funding Amount
$230,753.00
Summary
Despite recent advances in the treatment of breast cancer, a significant proportion of women with this disease receive little benefit from currently available treatments and die from breast cancer. Hence, new therapies for the breast cancers with the poorest prognosis are needed. This grant exploits our earlier finding that a specific calcium channel is a likely therapeutic target for breast cancer. Funding from this grant will be used to develop an inhibitory monoclonal antibody to this target.
Development Of A Slit Scanning Laser Ophthalmoscope As A Screening Tool In Glaucoma Diagnostics
Funder
National Health and Medical Research Council
Funding Amount
$195,830.00
Summary
Glaucoma is typified by progressive optic disc cupping and loss of fibres with consequent characteristic field defects. Direct imaging of the retina and quantitative assessment of such images greatly increases early diagnosis of this blinding disease. The proposed device, a laser line scanning ophthalmoscope, could support non-invasive imaging to obtain 3-D information in a simple and cost effective way. This could provide objective clinical parameters to support the decision making process.
The majority of deaths from cancer are due to metastasis, which is the formation of secondary tumours at sites remote from the primary tumour. Metastasis involves conversion of some tumour cells to an invasive, migratory form in a process that is controlled by small genetic regulators known as microRNAs. In this project we will conduct experiments aimed to provide a proof of principle demonstration in mice that microRNAs can be used to block the formation of metastases.
Development Of A Multiplex Assay For The Identification Of Women At Risk Of Preterm Labour.
Funder
National Health and Medical Research Council
Funding Amount
$202,350.00
Summary
Preterm birth (ie birth before the 37th week of gestation) is the most significant problem facing contemporary clinical obstetrics in the developed world and occurs in approximately 5% to 12% of all deliveries. Being born too early is the major cause of perinatal morbidity and mortality. Data from Australia indicate that each year, more than 17,000 babies will be born prematurely. Of these infants, over 10,000 will suffer respiratory complications and about 1300 will die during the first 21 days ....Preterm birth (ie birth before the 37th week of gestation) is the most significant problem facing contemporary clinical obstetrics in the developed world and occurs in approximately 5% to 12% of all deliveries. Being born too early is the major cause of perinatal morbidity and mortality. Data from Australia indicate that each year, more than 17,000 babies will be born prematurely. Of these infants, over 10,000 will suffer respiratory complications and about 1300 will die during the first 21 days of life. The sickest and most premature of these infants require admission to a Neonatal Intensive Care Unit in a tertiary hospital. Aside from the medical implications of premature delivery, there is also a considerable fiscal challenge to society. While treatments for the prevention of labour have improved considerably over the past decade, current screening tests of preterm labour (ie Fetal Fibronectin test) are unreliable and have poor positive predictive values. The principal objective of this project is to develop and deliver a multiplex assay for the prediction and diagnosis of human preterm labour. Through the successful application of our own proteomic discovery programmes using both ovine and human cervico-vaginal fluid samples, we have identified several new protein markers of labour. Having completed this Phase 1 biomarker trial and established proof-of-concept, we are now well positioned to initiate a Phase 2 biomarker trial to determine reliable estimates of assay sensitivity and specificity. This project targets the development of a new diagnostic to meet a recognised market gap. Delivery of such a test will create a new market in pregnancy-based clinical diagnostics and significantly impact on improving health care and quality of life for many preterm babies. Should the project be completed as detailed and mitigate some of the risk of commercial development, it would then be realistic to seek substantial funding from the private sector.Read moreRead less
Development Of Modified IGF-binding Proteins As Novel Anti-cancer Chemotherapeutics
Funder
National Health and Medical Research Council
Funding Amount
$77,375.00
Summary
We propose to enhance the effectiveness of current anti-cancer treatments by co-administering a protein to sequester growth factors that promote the resistance of cancer cells to chemotherapy. We aim to achieve improved destruction of breast and colorectal cancers but with reduced adverse side effects. Our in vitro data show the effectiveness of this novel co-therapeutic which is a modified form of a natural carrier protein for these growth factors. This application seeks funding to enable proof ....We propose to enhance the effectiveness of current anti-cancer treatments by co-administering a protein to sequester growth factors that promote the resistance of cancer cells to chemotherapy. We aim to achieve improved destruction of breast and colorectal cancers but with reduced adverse side effects. Our in vitro data show the effectiveness of this novel co-therapeutic which is a modified form of a natural carrier protein for these growth factors. This application seeks funding to enable proof of concept in vivo in order to attract commercial funding for clinical trials.Read moreRead less