New methods to improve regional isotope therapy of liver tumours in cancer patients. The most common cause of death in cancer patients is secondary tumours in vital organs. Successful treatment of liver tumours with regional isotope therapy now offers improved survival rates. This project will research novel radiolabelled nanoparticles and advanced computer imaging algorithms to improve regional isotope therapy of liver tumours. It will provide better methods of objective assessment and manageme ....New methods to improve regional isotope therapy of liver tumours in cancer patients. The most common cause of death in cancer patients is secondary tumours in vital organs. Successful treatment of liver tumours with regional isotope therapy now offers improved survival rates. This project will research novel radiolabelled nanoparticles and advanced computer imaging algorithms to improve regional isotope therapy of liver tumours. It will provide better methods of objective assessment and management that can reduce risk and improve patient survival.Read moreRead less
Novel Tools For The Imaging Of Tumor Hypoxia Using PET
Funder
National Health and Medical Research Council
Funding Amount
$727,856.00
Summary
Fast growing tumors often outgrow the ability of blood vessels to properly supply them with nutrients and oxygen. This creates tissue areas within the tumor that are lacking oxygen and are highly resistant to radiotherapy and chemotherapy. Imaging these areas using nuclear medicine techniques has now become important for therapy planning of cancer sufferers. This project aims to improve the properties of the existing agents in order to better select patients for a particular type of treatment.
Analysis Of Low Radiation Dose Outside Of The Treatment Field Received By Cancer Patients Undergoing Radiotherapy
Funder
National Health and Medical Research Council
Funding Amount
$332,384.00
Summary
Every medical intervention is associated with risk. The present proposal aims to quantify the dose from radiation that is delivered outside the actual target region in radiotherapy of breast cancer patients. This information can help the development of better irradiation techniques as well as inform patients and their carers about possible long term side effects. Finally, the research can be used to finetune radiobiological models by comparing clinical outcomes and accurately calculated doses.
Radioimmunotherapy is an experimental method of cancer treatment, involving the use of radioactive isotopes, which are targeted to tumour cells using specific molecules as carriers. These carriers are known as anti-tumour antibodies, and they bind specifically to tumour cells. Recent advances in molecular biology and in the understanding of the nature of tumour cells has resulted in the development of improved anti-tumour antibodies, and such improvements can be expected to continue. However, th ....Radioimmunotherapy is an experimental method of cancer treatment, involving the use of radioactive isotopes, which are targeted to tumour cells using specific molecules as carriers. These carriers are known as anti-tumour antibodies, and they bind specifically to tumour cells. Recent advances in molecular biology and in the understanding of the nature of tumour cells has resulted in the development of improved anti-tumour antibodies, and such improvements can be expected to continue. However, this project is concerned not with the tumour targeting aspect of radioimmunotherapy, but rather with the payload or cytotoxic mechanism, in which the radiation damage is focused on the DNA of the cell. In summary, the project explores a new approach in cancer radioimmunotherapy. This approach will be evaluated firstly in cultures of tumour cells and then in mice bearing transplanted tumours. If successful this project will result in the development of a new cell kill technology that can be combined with different anti-tumour antibodies.Read moreRead less