View clinical trials related to Pancreatic Cancer.
Filter by:Patients with resectable solid primary cancers and even limited number of metastases are potentially curable. However, most patients develop recurrences despite surgery. Circulating and disseminated tumor cell (CTC/DTC) and circulating cell-free (cf) DNA isolation from the blood, urine and bone marrow will increase understanding of cancer spread and advance knowledge to develop individualized therapies.
Background: In a new cancer therapy, researchers take a person s blood, select a certain white blood cell to grow in the lab, and then change the genes of these cells using a virus. The cells are then given back to the person. This is called gene transfer. For this study, researchers will modify the person s white blood cells with anti-CD70. Objectives: To see if a gene transfer with anti-CD70 cells can safely shrink tumors and to be certain the treatment is safe. Eligibility: Adults age 18 and older diagnosed with cancer that has the CD70-expressing cancer. Design: Participants will be screened with medical history, physical exam, scans, and other tests. They may by admitted to the hospital. Leukapheresis will be performed. For this, blood is removed through a needle in the arm. A machine separates the white blood cells. The rest of the blood is returned through a needle in the other arm. Eligible participants will have an intravenous catheter placed in their upper chest. Over several days, they will get chemotherapy drugs and the anti-CD70 cells. They will recover in the hospital. Participants will take an antibiotic for 6 months after treatment. They will repeat leukapheresis. Participants will visit the clinic every 1-3 months for the first year after treatment, every 6 months for the second year, and then as determined by their physician. Follow-up visits will take 1-2 days. At each visit, participants will have lab tests, imaging studies, and a physical exam. Throughout the study, blood will be taken and participants will have many tests to determine the size and extent of their tumor and the treatment s impact.
This study aims to collect clinical, biological and quality of life data from patients with a borderline or resectable pancreatic cancer. It will collect information from the date of diagnosis along the therapeutic care of the patients, and a 3-years follow-up after the end of the treatment. The database will be updated at each patient's visit. Biological samples will include: tumor, and plasma. Epidemiological data will also be collected, whereas Quality of life will be assessed by the EORTC standard. The objectives of this database are to identify new biomarkers (genomic, immunologic, and epidemiologic) and promote high quality standard research protocol.
To study activity in the reward-circuitry of the brain in patients suffering from cachexia induced by cancer or chronic disease.
Background. Pancreatic cancer surgery is associated with very high risk of postoperative morbidity and mortality. Anastomotic leak (AL) is one of the worst complications associated with relevant short and long-term sequelae. Procalcitonin (PCT) is a biomarker used to monitor bacterial infections and guide antibiotic therapy and has been shown to have better predictive value of AL after colorectal surgery than C-reactive protein (CRP) and white blood cell count (WBC). Purpose. The investigators designed a monocentric pilot study to test if PCT might be a sensitive and reliable marker of AL after pancreatic surgery
The purpose of this study is to find the best model of combination of intraoperative radiotherapy(IORT) and postoperative radiochemotherapy for pancreatic cancer.
This study is evaluating stereotactic radiosurgery (CyberKnife) plus chemotherapy for the treatment of potentially resectable adenocarcinoma of the pancreas
Pancreatic carcinoma typically has a high recurrence rate and very poor prognosis. Surgery is the best choice for the treatment of pancreatic cancer, but for those advanced pancreatic cancer patients,when surgery is not available,chemotherapy combined with radiation therapy or interventional therapy is commonly used in the treatment,but the prolonging survival effect is not obvious. And now, some clinical researchers use CAR-T cells in the treatment of pancreatic carcinoma, according to the existing results, therapeutic effects are not as good as expecting. One of the most likely reasons is that they continued to use the intravenous infusing of CART cells to patients, when the T cells into the blood circulation, will result in decreased tumor activity and more potential adverse effects. We believe that a suitable TAA targeted-CAR-T cells will be an effective way to treat cancer, as long as the pathway of the cell infused to the body can not only improve the drug concentration of the tumor site but reduce the potential off-target side effects. In order to achieve this goal, it is probably the best choice to use vascular intervention to mediate CAR-T cells infusion. Mesothelin is a cell-surface antigen implicated in tumor invasion, which is highly expressed in pancreatic carcinoma but low-level expressed in mesothelia. We design a 2nd CART cells targeted with mesothelin, and use vascular intervention mediated CAR-T infusion to patients. We hope deliver anti-mesothelin CART cells locally can reducing the side effects while enhancing the antitumor affect by more CART cells accumulate in tumor sites while less can reach normal mesothelial tissue.
The purpose of this study is to see if LOAd703 (an oncolytic adenovirus) can be safely given to patients with pancreatic cancer. The study will also evaluate whether or not intratumoral injection of LOAd703 will support current standard of care treatment to reduce the size of the tumor and improve survival of the patients. Adenoviruses are known as the "common cold" virus and most individuals have had multiple infections during their lifetime. Oncolytic adenoviruses are adenoviruses that are modified so they cannot multiply and spread (known as replicating) properly in normal (e.g. healthy) cells, but instead, they infect and replicate very well in cancer cells. This strong replication leads to the death of the cancer cell. Oncolytic viruses have been evaluated in multiple clinical trials for cancer treatment during the past decade and been proven safe. It is common to have a fever the first day or two after virus injection since the immune system will react to the virus infection. The immune system can also kill cancer cells but to do so it needs to be properly stimulated. Oncolytic viruses alone do not seem to be strong enough to activate clinically relevant anti-cancer responses. However, it is thought that if additional immune system stimulators are added to the oncolytic viruses they may be able to result in clinical relevant antic-cancer responses. LOAd703 is an oncolytic adenovirus that has been modified to include additional immune system stimulators. Specifically, genes that stimulate the immune system have been added to the oncolytic adenovirus. Once the oncolytic adenovirus infects the cancer cells, the genes will be expressed, resulting in activation of the immune response so it can attack and kill cancer cells. In this study, LOAd703 will be given by intratumoral injections. It will be given in addition to standard of care treatment with gemcitabine and nab-paclitaxel +/- the anti-PD-L1 antibody atezolizumab. Because this is an experimental therapy, there will be extra visits for disease monitoring and samples accordingly to the detailed information below. The LOAd703 is an investigational agent not approved by the FDA.
The purpose of this study is to create a registry to provide insight into treatment selection and treatment outcome of pancreatic IRE in order to develop an evidence base such that physicians can provide the best possible care to patients with pancreatic cancer requiring surgical interventions. The investigators seek a better understanding of the uses of ablation in the treatment of unresectable soft tissue pancreatic tumors and the limitations, concerns and complications that earlier users have.