View clinical trials related to Pancreatic Neoplasms.
Filter by:This is an open-label randomized trial. Subjects will be randomized in a 2:1 ratio to receive carbon ion radiotherapy versus standard care for locally advanced pancreatic cancer. Subjects who receive carbon ion radiotherapy may receive additional chemotherapy afterwards, at the discretion of the treating physicians. Subjects on the control arm are also expected to receive chemotherapy, using a regimen selected by the treating physicians. Subjects on the control arm will not receive upfront radiotherapy but may receive radiotherapy (not carbon ion radiotherapy) if disease progression occurs.
The central hypothesis is that the addition of CDX-301 to CDX-1140 radically improves anti-tumor immunity in patients with pancreatic ductal adenocarcinoma.
This study examines heart rate monitoring variability for the early detection of pancreatic cancer. Pancreatic cancer is a very difficult disease to detect early. This study is being done to observe the heart rate variability in patients with pancreatic cancer compared to undiagnosed individuals with increased risk of developing pancreatic cancer. This may help researchers determine if pancreatic occurrences/recurrences (chance of coming back) can be detected sooner through monitoring heart rate and activity.
This phase II trial studies the side effects and how well the combination of binimetinib and encorafenib work in treating patients with pancreatic cancer with a somatic BRAF V600E mutation. Binimetinib and encorafenib may stop the growth of tumor cells by blocking some of the enzymes needed for cell growth. Giving binimetinib and encorafenib may work better compared to the usual treatment in treating patients with pancreatic cancer and a somatic BRAF V600E mutation.
This phase Ib/II trial studies the side effects and best dose of CMP-001 and how well it works when given together with INCAGN01949 in treating patients with stage IV pancreatic cancer and other cancers except melanoma. CMP-001 is made up of a short piece of DNA that is packaged in a protein, known as a virus-like particle (VLP). VLPs are detected and processed by cells of the immune system. The DNA contained in CMP-001 activates the immune system and recruit cells of the immune system to the tumor. INCAGN01949 is an antibody, a type of protein, which has been shown to stimulate the immune system. Injecting CMP-001 and INCAGN01949 directly into the tumor may work against tumor cells to slow tumor growth by causing tumor cells to die.
Background: Fewer than 10 percent of people with pancreas cancer can have surgery. Surgery gives the best outcome. Radiation therapy is usually used to make surgery possible. But it does not work for most people. Adding immunotherapy might help. Objective: To find a safe combined dose of Bintrafusp Alfa (M7824), NHS-IL12 (M9241, and radiation and to see if it causes pancreas cancer tumors to shrink. Eligibility: People ages 18 and older who have pancreas cancer and cannot have curative surgery Design: Participants will be screened under protocol 01-C-0129 with: Medical history Physical exam Heart, urine, and blood tests Scans. For this, participants will lie in a machine that takes pictures of the body. They may receive a contrast agent by vein. Possible tumor biopsy Participants will take the study drugs either alone or with radiation. They will get M7824 by vein every 2 weeks. They will get M9241 injected under the skin every 4 weeks. Participants who get radiation will get it 5 days in a row the first month. Participants will have visits every 2 weeks. They will repeat screening tests. If participants tumors shrink, they will have surgery. If their whole tumor is removed, they will stop treatment. They will otherwise continue treatment as long as they can tolerate it and it is helping them. Participants will have visits 1 week and 1 month after they stop treatment. Then they will be contacted by phone or email for life. If they stop treatment for a reason other than their disease getting worse, they will have scans every 12 weeks.
The study is being conducted to evaluate the tolerability, safety and efficacy of maintenance Fluzoparib monotherapy in patients with gBRCA/PALB2 mutated metastatic pancreatic cancer whose disease has not progressed on first line platinum based chemotherapy.
The aim of the study is to evaluate toxicity and effectiveness of electrochemotherapy (ECT) with bleomycin in pancreatic cancer in clinical study phase I and II. After surgical resection of pancreatic cancer, the posterior resection surface will be treated with ECT with the intention to lower disease recurrence rate. The study will include 20 patients in phase I clinical study and additional 20 patients in phase II clinical study (or in the extension of the clinical study), which will fulfill inclusion criteria. Treatment effectiveness will be evaluated by US or CT imaging, to detect early local recurrence of the disease. Long term effectiveness of the treatment will be evaluated by frequent and precise patient follow-up. During follow-up clinical examination, laboratory tests, tumor markers (Ca 19-9 and CEA) and US/CT imaging will be performed. The secondary objectives of the trial are to quantify the impact of the treatment on the patient's quality of life, tolerance to the therapy and suitability for larger study to be conducted.
Pancreatic cancer (PC) remains a dreadful disease due to its often advanced stage at diagnosis and poor sensitivity to chemotherapy. Progression after 1. line chemotherapy is inevitable in patients with advanced PC, and treatment options for patients who progress after 1. line chemotherapy are limited. Considering the emerging role of the tumor microenvironment (TME), the combination of checkpoint blocking antibodies with agents that target the inhibitory effects of the TME could lead to better responses in tumor historically resistant to checkpoint blocking antibody approaches. Inflammation is one of the hallmarks of cancer, and contributes to PC initiation, enhanced invasiveness and metastasis. The immune-modulating cytokine interleukin-6 (IL-6) facilitates the inflammation cascade and key pathways within the respective TME, among others promotion of tumor-induced immunosuppression and facilitation of metastasis. Thus, IL-6 inhibition approach can potentially directly affect the immunosuppressive TME compartment. To explore the synergy of the proposed combinatorial approach, participants with locally advanced/metastatic pancreatic tumors who have progressed during or after at least 1 line of systemic chemotherapy in the metastatic setting will receive nivolumab and ipilimumab administered in combination with radiotherapy and tocilizumab. It is anticipated that this clinical study will inform the use of this 3-drug combination for further phase II and/or phase III clinical testing.
This proof of concept trial aims to assess whether the combination of IRE with Nivolumab is safe and effective to treat metastatic pancreatic cancer, based on the available preliminary evidence that IRE is able to cause a systemic anti-tumor immune response (i.e. abscopal effect), which may enhance the effect of subsequent Nivolumab treatment. In addition, the trial aims to clarify the systemic effects of IRE over time and thereby to provide more insight in the mechanism of work of the technique.