Investigation Of Molecular And Cellular Determinants Of Immune Related Adverse Events Following Treatment With Immune Checkpoint Inhibitors
Funder
National Health and Medical Research Council
Funding Amount
$128,224.00
Summary
Novel immune-based treatments for advanced, incurable, cancer have significantly improved patient survival. Although these treatments have proven highly effective, they are associated with the unpredictable development of severe and sometimes life-threatening autoimmune disease. We aim to discover ways to predict and potentially prevent these complications by identifying genetic risk factors and markers in blood samples. If successful, this will be a ground breaking advance in cancer care.
Patient Tailored Anti-tumour T Cells To Prevent Relapse In Patients With Acute Myeloid Leukaemia Undergoing Allogeneic Haemopoietic Stem Cell Transplantation
Funder
National Health and Medical Research Council
Funding Amount
$190,445.00
Summary
Acute myeloid leukaemia (AML) is the most common acute leukaemia in adults. Patients with high-risk AML have a 2-year survival of less than 20%. Blood or bone marrow transplant from a healthy donor is often the only chance of cure but the leukaemia frequently returns. Dr Blyth will perform a clinical trial giving leukaemia fighting immune cells from the transplant donor to patients with high risk AML to prevent relapse after transplant.
A Phase I Study Of Autologous CD19 Specific Chimeric Antigen Receptor T-cells For Therapy Of Relapsed And Refractory B-cell Leukaemia And Lymphoma (The Auto-CAR19 Trial).
Funder
National Health and Medical Research Council
Funding Amount
$584,666.00
Summary
Most people with leukaemia and lymphoma who relapse early after chemotherapy die of their disease. Inserting special genes into immune cells can enable them to kill leukaemia and lymphoma and has led to dramatic cures, but the cost of the viral vectors used to make these cells is prohibitively expensive. We will make leukaemia and lymphoma specific immune cells from patients using an inexpensive non-viral system, then administer the immune cells to patients to assess their safety and efficacy.
Develop New Approaches To Cancer Diagnosis And Treatment
Funder
National Health and Medical Research Council
Funding Amount
$4,000,000.00
Summary
Apoptosis is the dominant focus of our planned studies, because its impairment is both a critical step towards malignancy and a barrier to effective treatment. Arguably, the laboratory heads within our division and our collaborators from the Structure Biology Division at WEHI constitute the world’s strongest group with this focus. Our accumulated experience in this field from its renaissance in 1988 and the many unique materials they have created superbly position us to answer the fundamental qu ....Apoptosis is the dominant focus of our planned studies, because its impairment is both a critical step towards malignancy and a barrier to effective treatment. Arguably, the laboratory heads within our division and our collaborators from the Structure Biology Division at WEHI constitute the world’s strongest group with this focus. Our accumulated experience in this field from its renaissance in 1988 and the many unique materials they have created superbly position us to answer the fundamental questions and translate them into new therapeutic approaches. Our team’s second focus, the links of stem cells to cancer, is also of great importance, because the rare stem cells in the tumour may dictate therapeutic outcome. This Fellowship aims to addresses fundamental issues with enormous potential for medicine. It builds on productive ongoing research by a team with diverse complementary expertise, a record of effective interaction, high momentum and a history of path-breaking discoveries. I plan to maintain and further develop our Division (the Molecular Genetics of Cancer Division at WEHI) as one of the strongest teams for cancer research and development of cancer therapies in the world. Our division contains several laboratories that are highly interactive and complimentary in their approaches and research interests. I plan to strengthen the already highly productive laboratories in our division and to develop some new ones (see below under ‘proposed team’). I plan to increase work of our division to also include studies on other solid tumours (e.g. colon cancer, lung cancer, prostate cancer). This Fellowships aims to greatly enhance cancer research and hopefully also clinical practice in Australia. This should enhance the reputation of Australia as a country with recognized excellence in medical research and clinical practice. I am also confident that our division will continue to educate outstanding PhD graduates and postdoctoral fellows who will in due course become independent researchers and develop into future leaders in medical research in Australia and-or overseas.Read moreRead less
Prophylactic Early Parenteral Nutrition In Patients Undergoing Hematopoietic Cell Transplantation: A Multi-centre Randomised Controlled Trial.
Funder
National Health and Medical Research Council
Funding Amount
$1,131,673.00
Summary
We intend to conduct a multi-centre clinical trial in patients receiving bone marrow transplants to determine whether very early nutrition support improves overall survival.
Improving Patient Outcomes Through Better Use Of Blood Products
Funder
National Health and Medical Research Council
Funding Amount
$1,412,250.00
Summary
Blood transfusions, used wisely, save lives. Blood must be used judiciously: it is donated by volunteers, and carries risks and great cost to the community. Although a common intervention, evidence in many areas is inadequate to formulate recommendations on how blood should be used. This research program will address national priorities where evidence is weak by undertaking clinical trials to compare transfusion strategies, evaluate alternatives to transfusion and test novel blood components.
Long-term In Vivo Imaging Of Bone Marrow Microenvironments In Multiple Myeloma.
Funder
National Health and Medical Research Council
Funding Amount
$688,371.00
Summary
White blood cells are soldiers of the immune system. When the machinery that controls growth and death of these cells is disrupted, these cells can undergo massive expansion. This leads to the development of blood cancers such as multiple myeloma (MM). In MM, malignant cells infiltrate bones preventing production of blood and damaging the bone structure leading to fractures. Using cutting edge microcopy we will watch how MM cells grow and damage bone tissue to develop new therapeutic approaches.