View clinical trials related to Pancreatic Cancer.
Filter by:A Phase 1/1b dose finding study to determine the OBD(s) and RP2D(s) of BMF-219, a covalent menin inhibitor small molecule, in subjects with KRAS mutated unresectable, locally advanced, or metastatic NSCLC (Cohort 1), PDAC (Cohort 2), and CRC (Cohort 3).
The goal of this clinical trial is to learn about the feasibility of collecting pancreatic juice through duodenal aspiration by ultrasound endoscopy (EUS) for molecular marker testing after intraduodenal infusion of vinegar in patients with suspected pancreatic cancer and who are scheduled to have endoscopic ultrasound with fine needle aspiration (EUS-FNA). The main questions it aims to answer are: - Is vinegar-induced collection of duodenal pancreatic juice via endoscopic ultrasound feasible? - What is the best operating condition (amount of vinegar, collection time, etc.) of vinegar-induced collection of duodenal pancreatic juice via endoscopic ultrasound? Participants will have EUS as scheduled, during which different amount of vinegar will be infused into duodenum and then pancreatic juice be collected for different time via suction by EUS. Researchers will compare the amount of collected pancreatic juice and molecular marker level in different groups to determine the best operating condition for vinegar-induced collection of duodenal pancreatic juice via endoscopic ultrasound.
This trial is a single-arm, multicenter clinical study to evaluate the efficacy and safety of Docetaxel for Injection (Albumin-bound) in patients with pancreatic cancer.
This monocentric study aims at evaluating the effects of fecal microbiota transplantation from newly diagnosed cachectic and non-cachectic pancreatic cancer patients, and healthy volunteers on several cachexia-related parameters of germ-free mice.
This is a single center, open-label, phase 1 study to evaluate the safety and efficacy of U87 CART in treating advanced solid tumor .
Based on the cell free nucleic acid analysis information of blood samples and genetic mutation profile of EUS-FNB tissue from pancreatic cancer, the concordance between them is evaluated. And based on this information, biomarkers for diagnosis, treatment, and prognosis of pancreatic cancer are explored.
The purpose of this study is to evaluate the safety and clinical activity of tislelizumab (an anti-PD-1 antibody) in combination with SX-682 (a CXCR1/2 inhibitor) in subjects with newly diagnosed and surgically resectable pancreatic adenocarcinoma.
Background: Many advances have been made in cancer treatments, but more research is needed. Comparing samples of cancerous tissue to samples of normal, noncancerous tissues may help find differences between them. These differences may help researchers find new ways to treat cancer. Objective: To collect tissues and blood samples from people with known or suspected cancer. The samples will be used to help identify new targets for cancer treatments. Eligibility: People aged 18 years and older with a known or suspected cancer that requires surgery or biopsy. Design: Participants will be screened. They will answer questions about their health. They can do this on the phone or in person. Researchers will collect information from participants medical records. Data may include information about any prior or current cancers. Data about other medical conditions may also be collected. Participants will have blood drawn. Some of the blood will be tested for HIV and hepatitis B and C. Some of the blood will be used for genetic research. Participants will have tissue samples collected during surgeries or biopsies. These are procedures the participants would have had as part of their standard care. No new procedures will be done just for this study. Researchers may also seek out samples from prior procedures the participant had done. Participants will remain in the study for 6 months. They may have blood drawn again. Researchers may also collect tissue samples from any procedures performed during that time.
The purpose of this study is to enable non-invasive early detection of pancreatic cancer in high-risk populations through the establishment of a machine learning model using plasma cell-free DNA fragmentomics. Plasma cell-free DNA from early stage pancreatic cancer patients and healthy individuals will be subjected to whole-genome sequencing. Features, such as cell-free DNA fragmentation, copy number variations and the status of KRAS gene mutation, will be assessed to generate this model.
Based on the cell free nucleic acid analysis information of blood samples, the results of microbiome and metabolite analysis of stool and urine samples of pancreatic cancer and bile duct cancer patients, the clinical correlations of them with primary cancer are evaluated. And based on these information, biomarkers for diagnosis, treatment, and prognosis of pancreatic and bile duct cancer are explored.