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Through this Australia Fellowship, Prof Keall and his tream will substantially improve the accuracy and effectiveness of radiation therapy for cancer by developing new techniques that will be able to ‘target’ a tumour in real-time and ‘concentrate fire’ on the most resistant and aggressive parts of it. Success in physiological targeting will create a paradigm shift in radiation therapy and could literally be a lifesaver. It’s a big challenge, but if this five-year research program succeeds, it w ....Through this Australia Fellowship, Prof Keall and his tream will substantially improve the accuracy and effectiveness of radiation therapy for cancer by developing new techniques that will be able to ‘target’ a tumour in real-time and ‘concentrate fire’ on the most resistant and aggressive parts of it. Success in physiological targeting will create a paradigm shift in radiation therapy and could literally be a lifesaver. It’s a big challenge, but if this five-year research program succeeds, it will pay big dividendsRead moreRead less
Innovations In Cancer Imaging And Targeted Radiotherapy To Improve Human Health
Funder
National Health and Medical Research Council
Funding Amount
$926,980.00
Summary
Through a process of discovery, development and investigation we will create medical devices and methods to improve cancer imaging and targeted radiotherapy. Successful completion of this program will directly impact on the treatment and lives of Australian cancer patients in the foreseeable future.This program will substantially build research capacity and productivity within Australia, raise Australia’s profile in cancer research and foster international collaboration.
Biosensor Imaging In Preclinical Pancreatic Cancer Targeting: Taking Cancer Targeting To New Dimensions.
Funder
National Health and Medical Research Council
Funding Amount
$640,210.00
Summary
Using cutting-edge imaging technology and 3D models that mimic cancer, we can map areas of poor drug response within distinct 'stages' or regions of tumours. Here, we pinpoint and specifically target key factors limiting efficient drug response in order to improve the encouraging anti-cancer profile of new or current drugs in pancreatic cancer.
My research focus is the physical and mental health of Australian women at midlife. Over the next 5 years I will address the management of severe menopausal symptoms, midlife depression and the neglected health needs of women during and after cancer treatment, organ transplant and severe persistent mental illness. I will also investigate novel treatment approaches for menopausal symptoms. I will work closely with relevant professional and community groups in planning, implementation and translat ....My research focus is the physical and mental health of Australian women at midlife. Over the next 5 years I will address the management of severe menopausal symptoms, midlife depression and the neglected health needs of women during and after cancer treatment, organ transplant and severe persistent mental illness. I will also investigate novel treatment approaches for menopausal symptoms. I will work closely with relevant professional and community groups in planning, implementation and translation to ensure my research addresses their needs.Read moreRead less
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.
Diseases of the 21st century are complex with environmental and genetic causes. At the interface of these is Epigenetics - factors not specified by DNA sequence that control genes. Recent data show much of the risk associated with disease is set early in life, even during the time in the womb. The MCRI CDDE laboratory has assembled teams of researchers of diverse expertise investigating epigenetics of human development and complex disease to hopefully prevent or reverse them early in life.
Understanding the basic biology of cells will allow us to pinpoint key mechanisms and molecules that underpin multiple diseases and are targets for treatments. The broad aims of this research program include the development of new therapies for chronic inflammatory diseases, understanding how proteins are sorted and trafficked inside cells in processes that are essential to immunity and cancer biology, and identifying new intracellular targets to block bacterial invasion and infectious diseases.