View clinical trials related to Pancreatic Neoplasms.
Filter by:"Non-immunogenicity" of PC with high prevalence of immunosuppressive cells and typically a scarcity of tumor-infiltrating effector lymphocytes is considered as one of the reasons for lacking responsiveness to single-agent immunotherapies. Considering the emerging role of the tumor microenvironment, the combination of checkpoint blocking antibodies with immunomodulation of the tumor microenvironment could lead to better responses in tumor historically resistant to radiation and checkpoint blocking antibody approaches as single modalities. For example, the data from the phase 2 study CheckPAC (NCT02866383) showed durable clinical benefit in a small subgroup of patients after adding SBRT of 15 Gy to a combination of nivolumab and ipilimumab (presented at ASCO GI 2022, San Fransisco) in patients with resistant metastatic PC. Furthermore, we have found that the TGFβ-15 immune response is corelated to clinical benefit, supporting the rationale for combining of TGFβ-15 peptide vaccine with CheckPAC strategy (SBRT of 15 in combination with nivolumab and ipilimumab).
The goal of this clinical trial is to analyze if intraperitoneal drainage is necessary following distal pancreatectomy. This study aims to determine whether the omission of routine intraperitoneal drainage in the setting of reinforced staple technology is non-inferior to routine intraperitoneal drainage with respect to a composite post-operative complications of Grade B or C Postoperative pancreatic fistula (POPF), readmission, or organ space surgical site infection following a distal pancreatectomy.
Rationale: Bile salts are potent signalling molecules influencing various metabolic and functional processes. Bile salts exert these functions by activating nuclear (e.g. FXR ) and plasma cell membrane-bound receptors (e.g. TGR5) which are expressed in several tissues (e.g. liver, small intestine, colon, kidney and gallbladder). Bile salts regulate their own biosynthesis by controlling the transcription of the hepatic bile salt synthetic enzyme CYP7A1. Two pathways are involved in the negative feedback control of bile salt synthesis: i) the hepatic FXR-SHP pathway and ii) the ileal FXR-FGF19 pathway. Studies showed that the latter is more prominent in controlling CYP7A1 transcript levels (viz. bile salt synthesis). Thus, bile salts are synthesized in the liver, excreted in bile and expelled by the gallbladder into the proximal intestine (to aid in lipid absorption and digestion) and reabsorbed in the terminal ileum to recycle back to the liver via portal blood. Bile salts reclaimed from the intestinal lumen by the ileocyte, activate FXR. This induces the expression of an enterokine, FGF19, which signals via portal blood to the liver to activate its receptor which initiates downstream signalling to repress bile salt synthesis. The FXR/FGF19 signalling pathway is the subject of the present study. Patients with obstructive cholestasis (=accumulation of bile) caused by malignancies (e.g. pancreatic cancer, cholangiocarcinoma) have a perturbed enterohepatic cycle. Obstructive cholestasis is associated with i) gut barrier dysfunction, ii) endotoxemia, iii) bacterial overgrowth and iv) liver injury. Previous study showed that FGF19 is expressed in the liver of patients with obstructive cholestasis. However, knowledge about the contribution of FGF19 protein by the gut in obstructive cholestasis has thus far been unexplored. Preliminary findings revealed that FGF19 is produced by the portal drained viscera (viz. intestine) of non-cholestatic patients undergoing liver surgery. The inter-organ signalling of FGF19 in an obstructed entero-hepatic cycle has not yet been characterized and likewise the metabolic and other functional effects of inflicted FGF19 signalling during cholestasis have not been clarified. The hypothesis is that the FXR-FGF19 pathway is disturbed in patients with obstructive cholestasis, and this is associated with organ injury and metabolic dysfunction. The investigators postulate that FGF19 is not produced by the terminal ileum under conditions of obstructive cholestatic, but production is shifted to the liver and this affects metabolic processes. The aim of this study is to investigate FGF19 signalling in patients with cholestasis compared to non-cholestatic patients or post-cholestatic patients (drained patients) by calculating fluxes across the portal drained organs. Secondly, the investigators aim to investigate the metabolic and functional consequences (glucose, lipid homeostasis, cholestatic itch, gut barrier function) of a disturbed FXR-FGF19 pathway in humans. This study will provide insights that may lead to potential therapeutic strategies for patients with a disturbed enterohepatic cycle (e.g. cholestatic liver diseases). Study population: Adult (>18 years old) cholestatic (cholestasis group), drained (restored enterohepatic cycle) and non-cholestatic patients (controls, normal enterohepatic circulation) undergoing pancreaticoduodenectomy (Whipple procedure) for hepatopancreaticobiliary malignancies (e.g. pancreatic cancer, cholangiocarcinoma) or liver resection for hepatic malignancies (e.g. cholangiocarcinoma, colorectal liver metastases) are eligible for this study. Study period: inclusion is planned from 1.12.2017 until 1.12.2024
The purpose of this study is to collect all radiological data which evaluated with clinical data may help assess malignancy and prognosis of pancreatic disease.This registry aims to collect retrospective data from 2014 and prospective data until 2027 with a maximum follow-up of 3 years per patient.
This study will evaluate safety, pharmacodynamics and biomarkers of subcutaneous (SC) DK210(EGFR) given as monotherapy and in combination with immunotherapy, chemotherapy or radiation.
Multi-centre Retrospective Observational Cohort study of patients who underwent pancreaticoduodenectomy from 01/01/2005 to 01/02/2022 with histologically confirmed pancreatic head malignancy
The purpose of this study is to assess the use of an exercise program in people with pancreatic cancer.
This phase I trial tests the safety, side effects, and best dose of sunitinib malate in combination with lutetium Lu 177 dotatate in treating patients with pancreatic neuroendocrine tumors. Sunitinib malate is in a class of medications called kinase inhibitors and a form of targeted therapy that blocks the action of abnormal proteins called VEGFRs that signal tumor cells to multiply. This helps stop or slow the spread of tumor cells. Radioactive drugs, such as lutetium Lu 177 dotatate, may carry radiation directly to tumor cells and not harm normal cells. It is also a form of targeted therapy because it works by attaching itself to specific molecules (receptors) on the surface of tumor cells, known as somatostatin receptors, so that radiation can be delivered directly to the tumor cells and kill them. Giving sunitinib malate and lutetium Lu 177 dotatate in combination may be safer and more effective in treating pancreatic neuroendocrine tumors than giving either drug alone.
This is a prospective, one-arm, phase II clinical study of Tislelizumab Combined With Anlotinib and Chemotherapy for Second-line Treatment of Advanced or Metastatic Pancreatic Cancer
The purpose of this clinical trial is to determine whether using chemotherapy followed by stereotactic ablative body radiation therapy (SABR) and tumor treating fields (TTF) will slow tumor growth in people with locally advanced pancreas cancer. All participants will receive SABR therapy once per day for five days and use the TTF system for at least 18 hours per day starting on the first day of SABR until the tumor progresses or severe toxicity develops.