View clinical trials related to Pancreas Cancer.
Filter by:Evaluation of the impact of an activity tracker based fitness programme on the Qualitiy of Life after oncological therapy.
Drug delivery in solid tumors, whether administered systemically or locoregionally, is hindered by an elevated interstitial fluid pressure (IFP). Stromal targeting therapies are in active development, aiming to enhance drug transport after systemic or locoregional delivery. To date, no clinical methods are available to quantify tumor biophysical properties (including IFP). The investigators aim to use a combination of dynamic contrast enhanced MRI and computational fluid modeling (CFD) to measure stromal IFP in patients with pancreatic cancer and in patients with ovarian or colonic peritoneal carcinomatosis (PC). Computational data will be correlated with therapy response, platinum drug penetration, and invasively measured biophysical parameters after intravenous (pancreas) or intraperitoneal (ovarian/colonic PC) administration of a platinum compound. This would be the first in depth clinical study addressing this important topic, and could pave the way to developing personalized computational based treatment approaches aimed at targeting the biophysical environment of the tumor stroma in order to enhance cancer drug delivery.
The goal of this study is to investigate the efficacy of [68Ga]CBP8 to detect collagen deposition in radiation induced tissue injury.
The aims of this study are to determine the natural history of pancreatic cysts and to propose and prospectively validate a diagnostic approach and model for prediction of mucinous versus non-mucinous, and malignant versus non-malignant, pancreatic cysts using a combination of clinical, radiologic, and biomarker characteristics.
The study is particularly innovative as it will accurately analyze the microscopic characteristics of the stroma, tumor budding and mucin expression in adenocarcinomas of the pancreas, using a comparative approach of long-survivor/short-survival patients.
The investigational drug to be studied in this protocol, BCA101, is a first-in-class compound that targets both EGFR with TGFβ. Based on preclinical data, this bifunctional antibody may exert synergistic activity in patients with EGFR-driven tumors.
Pancreatic fistula (PF) represents the Achille's heel of pancreatic surgery and is the main cause of postoperative morbidity since it can determine the onset of others complications such as abdominal abscesses, surgical wound infections, sepsis and bleeding, that can sometimes be fatal. During a previous study conducted at the University Campus Bio-Medico of Rome, Department of General Surgery there were identified cut-offs of amylase levels on the abdominal drainage fluid dosed in I postoperative day (POD1) and III postoperative day (POD3) which can significantly predict PF and in particular clinically relevant fistulas as well as abdominal collections and biliary fistulas, if related to some specific findings of the abdominal CT routine performed in POD3. The aim of this research project is to validate the cut-offs of the amylase levels on drainage fluid identified during the previous research in order to identify patients at risk of clinically relevant PF and to validate the use of abdomen CT without contrast in POD3 in patients with increased risk of biliary fistula.
Patients with advanced pancreas adenocarcinoma will be randomized on a 6:1 basis to receive standard of care chemotherapy followed by adaptive stereotactic body radiotherapy (SBRT) with concurrent and adjuvant FAK inhibitor defactinib (experimental arm) or standard of care chemotherapy followed by SBRT (control arm). Patients enrolled to the experimental arm will be assessed for clinical outcomes such as progression free survival (PFS), local control, distant control, and toxicity. The first 6 patients randomized to the experimental arm will be considered the safety lead-in and will be assessed for dose-limiting toxicities (DLTs). The 6 patients randomized to the control arm will be evaluated for correlatives but will not be included in the analysis for primary and secondary endpoints.
The purpose of this study is to determine whether quantitative contrast-enhanced endoscopic ultrasound (CE-EUS) improves the evaluation of pancreas tumors and precursor lesions, including cysts, compared to conventional endoscopic ultrasound.
Microbiome in patients affected by pancreatic ductal adenocarcinoma may present specific and identifiable patterns. These variations could affect the surgical outcome and increase the risk of life-threatening infections supported by multidrug-resistant bacteria. The identification of microbial signatures with tumor specificity may have a potential role in postoperative risk stratification. Variation of pancreatic, intestinal or bile microbiome and their relationship can be investigated and measured as promising tools in order to predict and overcome the clinical and infectious burden imposed by MDR infections. The prospect of a potential role for probiotics to promote competition against the pathogens and to improve the gastrointestinal barrier integrity has also been raised. Moreover, if the bacterial composition in human PDAC was confirmed to be distinct from that of the normal pancreas, microbiome variation could be used as a potential biomarker, to assess the potential for malignancy in precursor neoplastic lesions. However, we believe that a preliminary and explorative study is necessary. The study aims to outline the pancreatic microbiome of patients who undergo upfront PD for resectable PDAC and to characterize the possible association between bacterial composition and the occurrence of post-operative complications, particularly POPF and IC.