Production Of A Novel Humanised Anti Dendritic Cell Therapeutic Antibody For Graft Versus Host Disease
Funder
National Health and Medical Research Council
Funding Amount
$202,500.00
Summary
A transplant of bone marrow or other source of blood stem cells from a donor is often used to treat leukaemia patients whose disease has failed to respond to chemotherapy. The Mater Medical Research Institute has developed a world first dendritic cell depleting therapeutic antibody which may open a new strategy for the control of acute graft versus host disease, which is a very common and often fatal complication of bone marrow transplantation. The new antibody treatment is also likely to be use ....A transplant of bone marrow or other source of blood stem cells from a donor is often used to treat leukaemia patients whose disease has failed to respond to chemotherapy. The Mater Medical Research Institute has developed a world first dendritic cell depleting therapeutic antibody which may open a new strategy for the control of acute graft versus host disease, which is a very common and often fatal complication of bone marrow transplantation. The new antibody treatment is also likely to be useful for the prevention of rejection in solid organ transplantation. If successful, it will selectively control graft versus host disease, without compromising the essential anti-viral immunity and desired anti-leukemia activity of the graft.Read moreRead less
Development Of Resonance Energy Transfer Technologies To Detect GPCR Heterodimer Complexes In Living Cells
Funder
National Health and Medical Research Council
Funding Amount
$205,555.00
Summary
G-protein coupled receptors are proteins at the surface of most cells in the body. They bind to drugs, transmitting signals into cells that change what cells are doing. Recent research indicates that different types of these proteins can interact with each other and when one of these protein combinations binds a drug, it acts differently to when the proteins act separately. The aim of our project is to find out which protein combinations exist and to find drugs that bind to them specifically.
Development Of A PET Detection System Prototype With Depth Of Interaction Capability
Funder
National Health and Medical Research Council
Funding Amount
$360,906.00
Summary
This development project invovles the development of a slim-line Positron Emission Tomogrphy (PET) detection sub-module, the crucial component of PET scanners, that is small and extremely flexible. It is planned to utilize this module in the design of customized new commercial PET scanners ideal for diagnosing human brain and breast disorders. The development will proceed in collaboration with Insight Oceania-ADAC, Sydney. Insight Oceania-ADAC are very excited by the potential applications and f ....This development project invovles the development of a slim-line Positron Emission Tomogrphy (PET) detection sub-module, the crucial component of PET scanners, that is small and extremely flexible. It is planned to utilize this module in the design of customized new commercial PET scanners ideal for diagnosing human brain and breast disorders. The development will proceed in collaboration with Insight Oceania-ADAC, Sydney. Insight Oceania-ADAC are very excited by the potential applications and future markets (Australia and overseas) of the newly developing PET detection sub-modules for dedicated PET scanners. Positron Emission Tomography (PET) is a functional imaging tool, which is able to quantify physiological and biochemical processes in vivo, using short-lived cyclotron-produced radiotracers. PET is emerging as an extremely important diagnostic procedure used in the early detection of cancers, neurological diseases and as an aid in treatment monitoring and drug development. The unique advantage of PET over anatomical imaging techniques, such as X-ray CT and MRI, arises from its ability to measure changes in tumour biology, at the molecular level, prior to anatomical changes in involved tissues, using trace amounts of a radiolabelled compound (radiotracer). The full potential of PET however, is not being completely utilized due to constraints within the current designs of PET scanners. When used to its full potential PET, in principle, would be an excellent diagnostic and treatment monitoring tool for breast cancer, brain tumours and other neurological conditions such as epilepsy, Alzheimer's, Parkinson's disease, post stress disorder, dementia, and depression. Lack of flexibility in current PET scanner designs to date has meant that no commercial human brain or breast imaging scanners exist. Pilot project data proved the feasibility of our new flexible PET detection module design.Read moreRead less