Intraoperative Endoscopic Ultrasound for Pancreatic Cancer
Pancreatic CancerNowadays pancreatic cancer is one of the deadliest oncological pathologies. The only effective curative tool is the surgery. Before the intervention, an endoscopic ultrasound is performed on the patient to carry out the biopsy of the main tumor. In this study, the echoendoscopie will be extended to lymph node staging away from the surgical field in order to implement a simple classification of lymph nodes, based on non-invasive ultrasound criteria. This would facilitate the location and qualification of peripancreatic lymph nodes and distant from the tumor, and therefore the staging of the tumor.
EUS-FNB With MOSE vs EUS-FNA With ROSE
Pancreatic NeoplasmsEndoscopic ultrasound-guided fine needle aspiration (EUS-FNA) is an indispensable tool for tissue acquisition for pancreatic lesions. However, FNA alone has several limitations including inadequate acquisition of cells, and unable to provide core tissue for further histological analysis. The use of rapid on-site evaluation (ROSE) by cytopathologist has the biggest impact on improving diagnostic accuracy and is regarded as the gold standard for EUS-FNA. Unfortunately, it is not widely available due to limited resources. In order to overcome these limitations, new fine needle biopsy (FNB) needles have been recently developed to collect not only cells but also the entire core tissue for histological analysis. Having core biopsy with preserved tissue provides additional advantages of allowing molecular analysis, which are of emerging importance in cancer management. Early results comparing FNB with FNA showed the superiority of FNB over FNA in the absence of ROSE. Data comparing FNB and FNA with ROSE are limited. In order to study to true merits of FNB over FNA, comparison with the most optimal method is necessary.
Evaluation of PET Probe [68Ga]CBP8 in the Detection of Radiation Induced Tissue Injury
Lung CancerRadiation Fibrosis2 moreThe goal of this study is to investigate the efficacy of [68Ga]CBP8 to detect collagen deposition in radiation induced tissue injury.
Study of a New Technique for Imaging Pancreatic Cancer
Pancreatic CancerTumors That Express CA19-9The purpose of this study is to see how well the experimental imaging agent 89Zr-DFO-HuMab-5B1 attaches to pancreatic tumors, and to find out whether PET/CT scans done with this imaging agent produce better images of cancer.
FAZA PET/MRI Pancreas
Pancreatic Adenocarcinoma Non-resectableLocally Advanced Pancreatic Adenocarcinoma1 moreThis is a single arm, single centre, investigator initiated study to investigate the use of FAZA-PET in combination with MRI. FAZA is an investigational radiotracer used in PET scans. FAZA PET-MRI will be used to measure hypoxia in up to 20 patients with unresectable, non-metastatic, locally advanced un-resectable pancreatic adenocarcinoma (LAPAC). After each FAZA PET-MRI scan, patients will be followed up via telephone, 48 hours after the imaging session to assure that the procedure was tolerated without side effects. Patients will undergo a FAZA PET-MRI scans before and after their standard of care radiation treatment.
Evaluation of Endoscopic Ultrasound-Guided Radiofrequency Ablation for the Management of Pancreatic...
Pancreatic NeoplasmThis clinical trial evaluates the safety and effectiveness of endoscopic ultrasound-guided radiofrequency ablation (EUS-RFA) for the management of patients with pancreatic tumors (including cysts) performed during recommended surveillance endoscopic ultrasound examinations. Pancreatic tumors (cysts) can progress to pancreatic cancer at rate of more than 25% per year risk. Pancreatic cancer is a fatal disease that is difficult to diagnose at an early stage, and the five-year survival rate is currently less than 10%. It is projected to be the second leading cause of cancer-related mortality by the year 2030. A procedure known as radiofrequency ablation may help. Radiofrequency ablation is an established way to treat benign and cancerous tumors in the human body. In the last 5 years, radiofrequency ablation has been applied to treat precancerous tumors (including cysts) in the pancreas. This procedure implements a medical technology that destroys tumors in a much less invasive way compared to traditional surgical removal. By delivering a high-frequency alternating current, radiofrequency ablation uses electrical energy and heat to destroy cancer cells. Radiofrequency ablation is being recognized as a management option in patients with high-risk pancreatic tumors (cysts) but are not deemed surgical candidates. While surgical removal offers a chance of cure, pancreatic surgeries have 20-40% morbidity rate (short and long-term complication) and a 1-2% mortality rate in patients who are surgical candidates. Furthermore, radiofrequency ablation can potentially decrease the need for frequent imaging/surveillance of the pancreatic tumor (cyst). In patients with immediate prohibitive, but reversible risks for surgery, radiofrequency ablation of a high-risk tumors (cysts) can potentially prevent further progression of the lesion and bridge the time before the need for surgical resection.
Evaluation of Prehabilitation as a Strategy to Minimize Surgical Risk in Pancreatic Surgery: Efficacy...
Pancreatic NeoplasmsAnesthesiaSeveral studies in major abdominal surgery demonstrated that preoperative optimization of surgical patients through prehabilitation is associated with fewer postoperative complications. However, patients' response to preoperative optimization is unpredictable, and there are no studies confirming the real benefit in pancreatic surgery. Aims: To assess the benefits of pre-rehabilitation in pancreatic surgery, and identify those factors associated with an effective optimization. Secondary aims: impact of prehabilitation on nutritional status, sarcopenia, quality of life, inflammation markers, postoperative complications and hospital stay compared to low-risk patients. Design: An objective multimodal assessment will be performed on those patients who are candidates to pancreaticoduodenectomy (PD) to identify patients at high-risk of postoperative complications. These patients will undergo prehabilitation and response will be evaluated. Intervention:Multimodal Prehabilitation will include: Physical and cardiopulmonary training followed by a personalized program according to basal aerobic capacity, patient circumstances and compliance, community-based and remote-controlled with information and communication technology (ICT). Personalized nutrition program adapted to the underlying disease (exocrine insufficiency, cachexia and sarcopenia, diabetes). Treatment of anxiety and depression. Subjects: 56 consecutive patients who are high-risk candidates (anaerobic threshold 11ml/kg/min at CPET) for PD recruited at Hospital Clinic of Barcelona. Postoperative variables will be compared to low-risk patients evaluated during the same study period. Analysis: The main variable will be aerobic capacity (VO2max, AT). Secondary variables (before and after the program) will be nutritional status, sarcopenia, quality of life, inflammation markers and immune response, hospital stay, complications, 90-days mortality and costs.
Profiling Program of Advanced/Metastatic Pancreatic Cancer Patients
Metastatic Pancreatic CancerAdvanced Pancreatic CancerThe proposal is to implement a molecular screening program for advanced/metastatic pancreatic cancer patients before the initiation of 1st line treatment in order to allow a better selection of patients for rationale personalized medicine with targeted agents and/or combination involving a chemotherapy backbone.
Contrast EUS of the Pancreas
Pancreatic NeoplasmsPancreatitis1 moreRATIONALE: Endoscopic Ultrasound (EUS) is the leading method to evaluate the pancreas but there may be difficulty characterizing small lesions, tumors which are not adenocarcinomas and neoplasia in the setting of pancreatitis. INTERVENTION: The innovation in this project will be the addition of intravenous contrast to standard EUS examination if the pancreas. PURPOSE: The aim is to determine if contrast enhances the ability of EUS to accurately diagnose lesions and target biopsies, and to define the quantitative features of this method. STUDY POPULATION:The population will include patients with pancreas cysts, masses, and inflammation presenting for EUS as part of standard clinical care. METHODOLOGY: This will be a prospective tandem trial involving conventional EUS, followed by EUS with contrast, followed by subsequent quantitative processing of contrast EUS imaging. ENDOINTS:Study endpoints will include the yield contrast EUS to evaluate pancreas cysts, masses, and inflammation. The impact of contrast EUS to better target the FNA of the chosen lesion will be assessed. Intra and interobserver variability will be assessed by comparing conventional EUS and contrast EUS of each case in a random order (intraobserver agreement) and among a group of blinded endosonographers (interobserver agreement).
Phase 2A Pilot C3 Trial of Recurrent/Refractory Metastatic Advanced Pancreatic Cancer
Pancreatic Cancer MetastaticThe goals of this trial are: 1) To evaluate the safety and tolerability of C3 administration with Gemcitabine; and 2) To assess the disease response following C3 administration with Gemcitabine. The main question it aims to answer are: 1) Is C3 in combination with Gemcitabine safe, tolerable, and effective for reducing improving advanced stage pancreatic cancer? and 2) Can C3 in combination with Gemcitabine prolong the lives of patients with advanced stage pancreatic cancer. Participants will receive a combination of metformin (850 mg twice a day), digoxin (0.25 mg once a day), and simvastatin (20 mg once a day), also known as C3, and Gemcitabine (as per standard of care) for 2 years.