View clinical trials related to Pancreatic Carcinoma.
Filter by:The purpose of this study is to determine whether autologous T cells bearing chimeric antigen receptor that can specifically recognize (Mucin 1) MUC1 is safe and effective for patients with relapsed or refractory solid tumor.
The aim of high dose radiotherapy treatment is to deliver enough radiation to the tumour to kill all the cancer cells while at the same time giving a low dose of radiation to the normal parts of the body to reduce the side effects of treatment. This requires the cancer specialist to accurately identify the areas of cancer on a computed tomography (CT) scan. Positron emission tomography computed tomography (PETCT) scans use radioactive sugar that is injected into the patient. This sugar goes into cancer cells and shows up as a bright spot on the PET scan, allowing the doctors to see tumours more accurately. Some cancers move with breathing, for example lung, pancreas and oesophageal (or gullet) cancers. Fourdimensional CT scanning (4DCT) is a special type of CT scan that allows the motion of the tumour to be seen and measured accurately. This information can then be used to help ensure that the radiotherapy correctly treats the moving tumour. The aim of this study is to see if there are possible benefits to combining PET with 4DCT to get a 4D PETCT scan for tumours that move with breathing. This study is divided into three cancer typesÍž lung, lower oesophagus and pancreatic cancer. First the investigators are going to test the use of 4D PETCT in the radiotherapy planning of these tumours to see if it helps the doctor to identify the cancer. Secondly, the investigators are going to see if the 4D PETCT helps to show areas within the cancer that are potentially more active. This might then allow us to target a higher dose to these areas, which could potentially improve the chance of controlling and curing the cancer. Patients' standard treatment will not be altered by participating in the study.