Biophysical identification of natural human antibody targets. A natural human antibody, PAT-SM6, isolated using technology developed by the partner organisation (Patrys), offers promise as a therapy to reduce mortalities due to cancer, the leading cause of death in Australia. The novelty of the approach pioneered by Patrys is the direct production of human antibodies which avoids undesirable side effects associated with the use of antibodies containing non-human components. This project is to ....Biophysical identification of natural human antibody targets. A natural human antibody, PAT-SM6, isolated using technology developed by the partner organisation (Patrys), offers promise as a therapy to reduce mortalities due to cancer, the leading cause of death in Australia. The novelty of the approach pioneered by Patrys is the direct production of human antibodies which avoids undesirable side effects associated with the use of antibodies containing non-human components. This project is to discover the specificity of PAT-SM6 for proteins and protein complexes and how these interactions lead to tumour cell death. This work will enhance the effectiveness of human antibody therapies and help in the development of this fast growing area within the biotechnology industry in Australia.Read moreRead less
Cancer Risks From Low-dose Ionising Radiation Following Diagnostic Medical Procedures
Funder
National Health and Medical Research Council
Funding Amount
$750,579.00
Summary
Our study investigates cancer risk following exposure to low doses of ionising radiation from medical procedures. Our first major paper linked over 800,000 CT exposures to cancer outcomes in a cohort of almost 11 million young Australians, and found that CT exposure predicted an increased incidence of leukaemia and most solid cancers. In our ongoing work we will incorporate nuclear medicine and other diagnostic x-rays, and estimate radiation dose for individual procedures and to specific organs.
Reducing The Greatest Uncertainty In Radiotherapy.
Funder
National Health and Medical Research Council
Funding Amount
$594,197.00
Summary
The weakest link in radiotherapy is defining treatment volumes (contouring). Lack of accuracy and consistency in clinical trial contouring has been shown to result in reduced patient outcomes. Manual review of contouring is resource intensive, expensive and for advanced treatments unachievable in a timely fashion. We will assess an automated approach to contouring assessment using 4 clinical trial datasets, changing practice for future studies and enabling consistent assessment in the clinic.
Australian Centre For Electromagnetic Bioeffects Research
Funder
National Health and Medical Research Council
Funding Amount
$2,499,672.00
Summary
Addressing the WHO Radiofrequency (RF) Research Agenda, this CRE brings together Australia’s strongest RF-health researchers to safeguard the Australian community within its ever-burgeoning RF exposure environment. It will determine the potential for RF-induced harm in the community and how best to communicate this knowledge to the community, translate this knowledge to the community via focused strategies, and develop Australia’s RF-health research and communication capability for the future.
Fighting Epidermal Skin Cancers By Targeting Epidermal Clones That Accumulate Mutations
Funder
National Health and Medical Research Council
Funding Amount
$1,149,373.00
Summary
Common skin cancers such as basal and squamous cell carcinomas (BCC and SCC) are by far the most frequent cancer worldwide and require over a million interventions per year in Australia. This project will identify the skin cells that are most susceptible to give rise to cancer if excessively exposed to the sun and explores ways to prevent cancer formation. This will inform on new strategies to prevent new skin cancer development.
Cancer And Low-dose Radiation - Possible Effects Of CT Scans In Childhood
Funder
National Health and Medical Research Council
Funding Amount
$476,650.00
Summary
Despite 100 years of research there is uncertainty about effects of low dose radiation from background and medical X-rays. We will measure the incidence of cancer in Australians exposed to CT scans (medical X-rays) as children between 1985 and 2005. Our results, from follow-up to 2009, will show whether there is a small but signicantly increased risk of cancer and guide further improvement in radiation safety standards if these prove to be necessary.
Preclinical Development Of A Therapeutic Anticancer Antibody To C-Met
Funder
National Health and Medical Research Council
Funding Amount
$435,530.00
Summary
Many common cancers cannot be effectively treated. A range of these cancers (e.g. gastric and lung cancer) display the molecule c-Met on their cell surface. c-Met promotes tumour growth; therefore, blocking c-Met is a promising strategy for treating these cancers. However, no antibodies or drugs that target c-Met have been licensed. The therapeutics that are being developed to target c-Met all have considerable limitations. Thus, there is an opportunity to develop a 'best-in-class' therapeutic.
An Integrated Approach For The Efffective Adoptive Immunotherapy Of Cancer
Funder
National Health and Medical Research Council
Funding Amount
$468,119.00
Summary
Killer T lymphocytes can penetrate tumors and their transfer into cancer patients has demonstrated some encouraging results, but this form of immunotherapy remain ineffective in most cancer patients. We propose to improve the tumor trafficking and anti-tumor activities of killer cells by genetically engineering them with proteins that will enable them to recognise and destroy cancer cells. The outcomes of this project will validate this novel approach for treatment of cancer patients.
Utilization Of Gene-engineered T Cells For Enhancing Cancer Immunotherapy
Funder
National Health and Medical Research Council
Funding Amount
$761,656.00
Summary
Killer T lymphocytes can penetrate tumours and their transfer into cancer patients has demonstrated some encouraging results, but this form of therapy and other approaches including vaccination remain ineffective in most cancer patients. In this project, we propose to improve the tumour trafficking and anti-tumour activities of killer cells by genetically engineering them with proteins that will enable them to recognise and destroy cancer cells, whilst minimizing toxicity to normal tissue.
New Strategies For Enhancing Chimeric Antigen Receptor (CAR) T Cell Therapy For Cancer
Funder
National Health and Medical Research Council
Funding Amount
$849,540.00
Summary
The role of the immune system in cancer is now recognised as highly important, highlighted by the success of immunotherapy in patients. Yet many patients fail to respond to this form of treatment due to low frequency of lymphocytes present at the tumor site. A new form of immunotherapy involving transfer of gene-modified lymphocytes is a potential way to overcome this problem. This project will explore new strategies to enhance the utility of this approach against blood and solid cancers.