View clinical trials related to Pancreas Adenocarcinoma.
Filter by:This is a randomized trial to evaluate the effectiveness of an electronic decision aid tool versus a traditional genetic counselor session for multi-gene panel testing for people with ovarian or pancreatic cancer
A major complication of pancreatic adenocarcinoma (PDAC) is cancer cachexia (CC) which is a complex syndrome characterized by skeletal muscle mass loss (with or without loss of fat mass) and progressive functional impairment not reversible by conventional nutritional support. It is estimated to occur in over 75% of patients with advanced PDAC, the highest incidence of all solid tumors, and contributes significantly to poor outcomes and mortality. Though there is overlap amongst the pathophysiologic studies evaluating CC in murine models of different tumor types, the high prevalence of CC within gastrointestinal (GI) malignancies and specifically PDAC suggest that dedicated studies evaluating polymorphisms in candidate genes specific to PDAC warrant further evaluation. The collection and analysis of specimens under this study will facilitate the identification and characterization of genomic polymorphisms associated with CC in PDAC patients. Subsequently, this data may help contribute towards diagnostic and therapeutic treatments that may improve patient outcomes.
This study aims to assess overall survival, quality of life and resection rates in locally advanced pancreatic cancer
Few chemotherapeutic options exist for pancreatic cancer. Moreover, objective criteria are lacking for deciding which regimen is more beneficial for patient presenting with metastases at diagnosis. This study investigates whether organoid generation from tumour samples of pancreatic cancer is a safe and feasible process for testing of multiple chemotherapy regimens in the laboratory. By participating to this study, patients will have a part of the tumour tissue retrieved and sent to the laboratory for organoid generation and drug testing. For surgically-resectable tumors, tumoral tissue samples will be collected from the main surgical specimens, before sending it for final pathological examination. In case of suspected metastatic lesion at diagnosis, curative surgery is not indicated. Therefore, we will offer patients to undergo port-a-cath implantation for chemotherapy delivery and concomitant laparoscopic surgical excisional biopsy of suspicious metastatic (either hepatic or peritoneal) lesions. At this stage of the study, the treatment that the patient will receive after surgery will not be affected by the results of the laboratory testing. In fact, all patients will receive the standard of care treatment based on the most recent oncologic guidelines and on the oncologist's clinical judgement. As part of the study, each patient will be followed for 30 days to assess possible surgical complications related to the surgical biopsy. This study will help to speed up the implementation of organoid generation in the clinical routine for the choice of the best treatment of patients affected by pancreatic cancer.
Diffusion-weighted magnetic resonance imaging (DWI/MRI) has been described in recent literature as a highly sensitive and specific modality for the detection of peritoneal metastases (PM). It has been demonstrated to be superior to computed tomography (CT) for patients with known peritoneal disease from colorectal and gynaecological malignancies. However, the literature is scarce on the role of DWI/MRI in patients with pancreatic ductal-adenocarcinoma (PDAC). The aim of this study is to prospectively assess the added value of whole-body DWI/MRI (WB-DWI/MRI) to CT for detection of PM in the preoperative staging of patients with high-risk PDAC and evaluate how it correlates with intraoperative findings.
This is a single-center, open-label, phase I study designed to determine the maximum tolerated dose (MTD) and safety profile of CPI-613® when used concomitantly with chemoradiation for local control of pancreatic adenocarcinoma (PDAC).
The purpose of this research study is to study a method to detect pancreatic precancer and cancer (ductal adenocarcinoma) using ultrasound technology in those who are at significantly increased risk for developing pancreatic cancer. The LINFU™ Technique is done by analysis of pancreatic fluid collected with the help of ultrasound. This is an investigational way to detect pancreatic precancers and ductal adenocarcinoma.
The hypothesize that SBRT will limit or reverse tumor growth and thereby convert the borderline resectable disease or locally advanced disease in to a resectable tumor. Furthermore, we want to assess whether SBRT leads to an improved quality of life compared to IMRT.
This study is designed to prospectively investigate the feasibility of establishing patient-derived tumoroids (PDT) as a platform for a personalized approach for response prediction and guide optimal neoadjuvant and/or adjuvant approach. PDT will be investigated to determine drug sensitivity, predict the response to chemotherapy agents and radiation therapy, and validate this response in treated patients, and to establish the feasibility of PDT as a platform for a personalized approach to guide multimodality treatment.
This study is for the verification of biomarkers for pancreatic cancer treatment using small RNA liquid biopsy, combined with EUS-FNA tissues.