View clinical trials related to Pancreatic Cancer.
Filter by:Pancreatic cancer is a highly malignant tumor of the digestive system.In China, the annual mortality/morbidity of pancreatic cancer is as high as 0.88:1, and the morbidity and mortality are still on the rise. The 5-year survival rate of pancreatic cancer patients in the United States is only 8%, among which more than 50% of patients have distant metastasis at the time of diagnosis, and the 5-year survival rate of advanced patients with distant metastasis is as low as 3%, with extremely poor prognosis. Currently there is no standard treatment for the first - and second-line treatment resistant and postoperative recurrent patients to further prolong their survival. mammilian target of rapamycin (mTOR) is a very important serine/threonine protein kinase involved in the regulation of energy metabolism, cell growth, angiogenesis and other cellular biological processes.Rapamycin (sirolimus) is a selective inhibitor of mTOR kinase, which can inhibit the activation and proliferation of T lymphocytes to inhibit the immune response.Currently, mTOR inhibitors are also widely used in tumor treatment. Several studies have been performed to evaluate the efficacy of sirolimus in some solid tumors, and encouraging results are obtained. However, the existing studies on mTOR inhibitors and pancreatic cancer treatment are mostly phase I trials, with little evaluation of the efficacy. Therefore, the phase II clinical trial of rapamycin in the treatment of pancreatic cancer is very necessary. In preclinical studies, investigators found that rapamycin can effectively inhibit the angiogenesis of liver Cancer led by tumor-associated macrophages (TAM), thereby inhibiting the progression of liver Cancer.In vitro experiments on pancreatic cancer showed that rapamycin can directly inhibit the proliferation of pancreatic cancer cells.After the treatment with rapamycin in the homologous xenograft tumor model of mice, it was found that the tumor growth of mice was significantly inhibited. Further analysis suggested that rapamycin not only directly inhibits tumor proliferation, but also reverses the immune suppressive microenvironment of pancreatic cancer and promotes the T-cell-mediated anti-tumor immune response.Preclinical findings suggest that rapamycin may benefit survival in pancreatic cancer patients, which makes us very interested in the efficacy of rapamycin in patients with advanced pancreatic cancer.Therefore, investigators designed this trial to evaluate the clinical efficacy of rapamycin in patients with second-line resistance and recurrence who lacked a standard treatment regimen.
This is a single arm, open-label, uni-center, phase I-II study to evaluate the safety and effectiveness of CAR-T/TCR-T cell immunotherapy in treating with different malignancies patients.
This is a study in which pancreatic cancer patients receive a immunotherapy with CART-meso cells administered at 3 days after one dose of cyclophosphamide. CART-meso cells are patients' own T cells lentivirally transduced to express anti-mesothelin scFv fused to TCRζ and 4-1BB costimulatory domains.The lymphodepletion with cyclophosphamide may prolong the persistence of CART cells.
This is a randomized phase II trial comparing the first-line treatment with nab-paclitaxel plus S-1(AS) and nab-paclitaxel plus gemcitabine(AG) in advanced pancreatic ductal adenocarcinoma (PDA) with primary tumor nonexcision in Chinese patients.
This study will analyze and evaluate the following items: 1. The safety of natural killer(NK) cells for treatment of subjects with solid tumors. Forty patients will be enrolled for each of the five cancers (in total 200 patients will be enrolled). 2. The effectiveness of natural killer(NK)cell therapy alone or with chemotherapy or targeted drugs. Subjects from 18 to 75 years of age who are diagnosed with a solid tumor including pancreatic cancer, lung cancer, breast cancer, ovarian cancer and colon cancer, and for whom standard treatments are not effective, may be eligible for this study. Participants undergo the following procedures: Peripheral blood will be collected from a vein of arm. Peripheral blood mononuclear cells(PBMC) will be isolated and purified for NK manufacturing. After 14~21 days cultivation, activated NK will be harvested and formulated for clinical administration. Subjects will receive NK cell treatment by intravenous infusion. The frequency is once every 3 or 4 weeks for the first 3 months. Participants who respond well after 3 months may be eligible to continue NK cell therapy; and those not may receive NK therapy combined with chemotherapy and/or targeted drugs, or chemotherapy/targeted drugs alone. Evaluations during therapy including: 1. Clinical assessment, and history of medications; 2. Blood draws for routine and research tests, including but not limited to: lymphocyte population and circulating tumor cell analysis in peripheral blood; 3. CT scan, bone scan and positron emission tomography(PET )scan, if indicated, for disease evaluation; 4. Pharmacokinetics study after NK infusion. For this test, the number of NK cells in the blood is measured over time at indicated time-points.
This study is the study of the combination of PEGPH20 and Pembrolizumab (MK-3475) for patients with previously treated Hyaluronan High (HA-high) metastatic pancreatic ductal adenocarcinoma. This study is an interventional, unblinded, open label study. Approximately 35 subjects will be enrolled. The trial will require approximately a total of 18 months, including 12 months for enrollment, with an additional 6 months for patient follow-up, data collection and study closure. Each subject will participate in the trial from the time the subject signs the Informed Consent Form (ICF) through the final contact. After a screening phase of up to 21 days, eligible subjects will receive PEGPH20 beginning with Cycle 1 Day 1, on Days 1, 8 15 of every 3 week-cycles and pembrolizumab beginning on Cycle 1 Day 1 (2-4 hrs after PEGPH20), every 3-week-cycles. Treatment with PEGPH20 and pembrolizumab will continue until progressive disease (PD), unacceptable adverse events (AEs), intercurrent illness that prevents further administration of treatment, investigator's decision to withdraw the subject, subject withdraws consent, pregnancy of the subject, noncompliance with trial treatment or procedure requirements, subject receives 35 treatments (approximately 24 months) of pembrolizumab, or administrative reasons requiring cessation of treatment. Subjects who discontinue for reasons other than PD will have post-treatment follow-up for disease status until PD, initiating a non-study cancer treatment, withdrawing consent, or becoming lost to follow-up. All subjects will be followed by telephone for overall survival (OS) until death, withdrawal of consent, or the end of the study. After the end of treatment, each subject will be followed for 30 days for AE monitoring. Serious adverse events (SAE) and events of clinical interest (ECI) will be collected for 90 days after the end of treatment or for 30 days after the end of treatment if the subject initiates new anticancer therapy, whichever is earlier.
The SurePathTM has been approved by the FDA since 1997. Currently, the SurePathTM is used for endometrial cells, body fluids, bronchoscopy aspirates, and thyroid fine needle aspirates. There is an advantage that the denaturation is small, the density of the cells is uniform, and the read area is small so that the read time can be shortened. Therefore, investigators plan to apply the SurePathTM test for pancreatic EUS-FNA specimens. Morphological comparative analysis is needed before completely replacing the existing classical smear test method. The aim of this study is to confirm that the SurePathTM is not inferior and is more accurate than the classical smear test.
This is a multicenter, open-label, Phase 1 study of orally administered VMD-928 in adult subjects with advanced solid tumors or lymphoma that have progressed or are non responsive to available therapies and for which no standard or available curative therapy exists
Patients with resectable solid primary cancers and even limited number of metastases are potentially curable. However, most patients develop recurrences despite surgery. Also, early detection of lung cancer with low dose CT screening may cure patients at an early stage. 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 and improve screening.
We are going to establish "organoid" models from pancreatic cancer biopsies achieved via EUS-FNA. Then the sensitivity of the selected FDA-approved anti-cancer drugs will be tested in these organoids.