View clinical trials related to Pancreatic Neoplasms.
Filter by:The latest guidelines recommend Gemcitabine plus Capecitabine as the first choice of adjuvant chemotherapy for pancreatic cancer patients in good physical condition. In order to prolong the survival of patients and improve the cure rate, metronomic chemotherapy with capecitabine is a safe, effective and economical treatment mode after adjuvant chemotherapy. This study is trying to determine that compared with observation group, if capecitabine metronomic medication is a better choice after adjuvant chemotherapy.
When pancreatic cancer of the body and tail is diagnosed, a distal pancreatectomy is planned. This operation can be performed with open surgery, or with laparoscopic surgery. This study is a multicenter randomized controlled trial to evaluate the operative outcomes and survival of open versus laparoscopic distal pancreatectomy for pancreatic cancer of the body and tail.
Immunotherapy has become the major breakthrough and the most promising treatment, with the host of development of tumor biology, molecular biology and immunology. ROBO1 is a potential target and spectacular paradigm in the treatment of solid tumors. This study is for evaluation of the safety and efficacy of ROBO1 CAR-NK cell immunotherapy for pancreatic cancer.
Studies have shown that injecting local anesthetics in areas rich in blood vessels increases the risk of drug injection into blood vessels by mistake and increases the systemic absorption of drugs, which may increase the incidence of central nervous system and cardiovascular system toxic events caused by local anesthetics.EUS-CPN-related complications have not been clearly associated with local anesthetic adverse events.However, EUS-CPN local anesthetic injection area is located around the beginning of the abdominal trunk with abundant large and small blood vessels. The choice of local anesthetics with higher safety than bupivacaine, such as ropivacaine, is of great significance to ensure the safety of eus-cpn, especially for eus-cpn beginners.At present, there are no reports on the application of ropivacaine in eus-cpn.
The main goal of this study is to explore the relationship between new-onset diabetes mellitus/deteriorating diabetes and a subsequent diagnosis of pancreatic cancer. Magnetic Resonance Imaging and Magnetic cholangiopancreatography (MRI/MRCP) will be utilized to screen for early stage pancreatic cancer or precursor lesions. Participants will be asked to donate a blood sample at specific intervals for the creation of a bio-bank necessary for the development of a blood based screening test for pancreatic cancer.
The purpose of this study is to measure and compare the difference of sound speed between pancreatic cancer and non-pancreatic cancer, and determine the critical value of sound speed for benign and malignant pancreatic cancer. The sensitivity, specificity, accuracy, positive predictive value and negative predictive value for the diagnosis of pancreatic cancer are calculated, so as to evaluate the clinical application value of local sound speed measurement in the diagnosis of pancreatic cancer.
This is a single arm, open-label Phase II clinical trial to Evaluate the Efficacy and Safety of the Combination of Nab-paclitaxel and Gemcitabine in Treating Patients with metastatic pancreatic cancer.
Study objective: Cohort 1: To quantify the uptake of 68GaNOTA-Anti-HER2 VHH1 in local or distant metastases from breast carcinoma patients and to assess repeatability of the image-based HER2 quantification. The uptake will be correlated to results obtained via biopsy of the same lesion, if available. Cohort 2: To report on uptake of 68GaNOTA-Anti-HER2 VHH1 in different cancer types that might overexpress HER2 Cohort 3: To explore the feasibility and added value of 68GaNOTA-Anti-HER2 VHH1 in the neoadjuvant setting of HER2-expressing breast carcinoma Time schedule: After inclusion, patients will be injected intravenously with 37 - 185 MBq 68GaNOTA-Anti-HER2 VHH1 with a total mass of up to 200 μg NOTA-Anti-HER2 VHH1. Serum and plasma samples will be collected at injection. At 90 min after injection, a total body PET/CT scan will be performed. Patients in cohort 1 will undergo a second PET/CT procedure, identical to the first procedure, within 8 days, with a minimal interval of 18h and maximal interval of 8 days. Patients in cohort 2 can undergo an optional 18F-FDG-PET/CT within 21 days prior to or after 68GaNOTA-Anti-HER2 VHH1. In cohort 1 and 2, based on PET/CT images, up to 2 lesions will be selected for optional image-guided biopsy. Biopsy will be performed max. 28 days after the last PET/CT. Plasma and serum samples will be obtained between 60 and 365 days after first injection for patients in cohort 1 and between 42 and 365 days after first injection for patients in cohort 2. Patients in cohort 3 will undergo 68GaNOTA-Anti-HER2 VHH1 PET/CT prior to the start of neoadjuvant treatment and again after the last cycle of neoadjuvant treatment but prior to surgery. Plasma and serum samples will be obtained before each injection and between 42 and 365 days after the last injection.
Subjects will be offered the opportunity to participate in a randomized, controlled, 2-arm, unblinded multicenter trial (RCT). There will be 2 study arms: the control arm receiving chemotherapy with the modified FOLFIRINOX regimen alone; and the irreversible electroporation (IRE) arm, receiving chemotherapy with the modified FOLFIRINOX regimen followed by IRE with the NanoKnife System using either an open or a percutaneous approach. All subjects will be treated with the modified FOLFIRINOX regimen for at least 3 months; randomization to either control or IRE arm will take place at the time of completion of the 3 month modified FOLFIRINOX chemotherapy regimen. Randomization will be conducted centrally. Subjects will be randomized in a 1:1 ratio and must be found to have no evidence of disease progression after completion of the 3 month modified FOLFIRINOX chemotherapy regimen in order to participate in the RCT. All radiologic assessments will be performed as consistent with the imaging protocol. All post induction and post IRE treatments are left to the discretion of the treating physician. The minimum period of follow-up will be for 24 months or until death.
The PIONEER Initiative stands for Precision Insights On N-of-1 Ex vivo Effectiveness Research. The PIONEER Initiative is designed to provide access to functional precision medicine to any cancer patient with any tumor at any medical facility. Tumor tissue is saved at time of biopsy or surgery in multiple formats, including fresh and cryopreserved as a living biospecimen. SpeciCare assists with access to clinical records in order to provide information back to the patient and the patient's clinical care team. The biospecimen tumor tissue is stored in a bio-storage facility and can be shipped anywhere the patient and the clinical team require for further testing. Additionally, the cryopreservation of the biospecimen allows for decisions about testing to be made at a later date. It also facilitates participation in clinical trials. The ability to return research information from this repository back to the patient is the primary end point of the study. The secondary end point is the subjective assessment by the patient and his or her physician as to the potential benefit that this additional information provides over standard of care. Overall the goal of PIONEER is to enable best in class functional precision testing of a patient's tumor tissue to help guide optimal therapy (to date this type of analysis includes organoid drug screening approaches in addition to traditional genomic profiling).