View clinical trials related to Pancreatic Cyst.
Filter by:The investigators are interested in performing a detailed examination of the pancreas via EUS (Endoscopic Ultra Sound)for patients referred for a non-pancreatic condition. The hypothesis is to make a statistical determination of how many pancreatic cysts the investigators discover incidentally.
This study focuses on three different lesions: pancreatic cysts, lymph nodes near the gastrointestinal tract and pancreatic masses. On one hand, the results obtained during previous studies are more advanced for the assessment of the diagnostic performance of Cellvizio needle-based Confocal Laser Endomicroscopy (nCLE) system for Pancreatic cysts. Safety and technical feasibility have already been performed, and an interpretation criteria classification exists. On the other hand, results for pancreatic masses and Lymph nodes are less developed. The study therefore comprises two sub-studies, one on the pancreatic cysts, and another on pancreatic masses and lymph nodes. 1. Cysts The primary hypothesis of the study is that using nCLE in addition to EUS-FNA and tissue sampling allows better characterization of pancreatic cysts and improves appropriate therapeutic decision-making. For physicians, integrating nCLE into the diagnostic algorithm of pancreatic cysts could impact patient management by : - Ruling out malignancy for patients with benign appearing nCLE images. - Characterizing more malignant tumors in the pancreas. 2. Pancreatic masses and Lymph nodes The primary hypothesis of the study is that in vivo imaging of lymph-nodes near the gastrointestinal tract and pancreatic masses during EUS-FNA procedures is feasible and that descriptive criteria can be defined to further differentiate the different types of lesions.
The purpose of this research project is to determine if pancreatic cyst fluid can be diluted and provide an accurate Carcinoembryonic Antigen (CEA) level. The investigators hypothesis is that pancreatic cyst fluid obtained by EUS-FNA can be diluted effectively and accurately for the measurement of CEA levels.
The purpose of this study is to evaluate the efficacy of a chemotherapeutic cocktail with or without prior ethanol lavage for ablation of premalignant pancreatic cysts using endoscopic ultrasound-guided fine needle injection (EUS-FNI) for agent delivery.
The goal of this study is to compare a sample of the cyst taken by a standard method (fine needle aspiration) to the sample taken by a new method using a device called the EchoBrush to see which method is more accurate at diagnosing cancer. We will also look at proteins (also called biomarkers) in the samples to see if they predict whether or not the cyst is cancerous.
The purpose of this study is to assess the yield of combination modalities in the diagnosis of pancreatic cysts using EUS/FNA, Fiber optics (direct visualization probe), and prototype needle based confocal laser-induced endomicroscopy miniprobe (nCLE).
This proposed project is designed to collect data and specimens from patients/subjects presenting to the University of Michigan with a disease affecting the pancreas (or specific control populations). This protocol is focused on collecting data, blood samples, and tissue on subjects with pancreatic diseases, including pancreatic cancer, pancreatic cysts, pancreatitis, diabetic controls, jaundice/biliary obstruction controls, and otherwise healthy controls. We are collecting up to 50 mls of blood for research purposes only. Plasma, serum and buffy coat are collected and stored according to strict SOPs.
Assess the safety and efficacy of the Cellvizio needle-based Confocal Laser Endomicroscopy (nCLE) system in differentiating benign from malignant and premalignant cysts (e.g. mucinous from non-mucinous cysts)
The aim is 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.
Confocal laser endomicroscopy (CLE) is a novel and highly promising imaging method for that allows in vivo imaging of the mucosal layer at resolution of approximately 1 micron. Cellular and sub-cellular structures as well as capillaries and single red blood cells can be visualized. CLE is now well established as a highly accurate method for distinguishing neoplasia in the gastrointestinal tract lumen via endoscopy. A major new breakthrough is the development of sub-millimeter CLE probes that can be passed via an image guided needle (nCLE) into solid organs and cysts. It is hypothesized that nCLE will help distinguish the benign, premalignant and malignant cystic lesions of pancreas by visualizing the cellular lining of the cysts, thereby, avoiding unnecessary surgery in patient with benign cysts and guiding to early and effective surgical removal of high risk neoplastic lesions. A prototype minimal risk nCLE system has been developed that can be passed via standard endoscopic ultrasound needles into the pancreas but FDA clearance for in vivo use is not expected until late 2010. The investigators propose to evaluate this prototype nCLE system in vivo during endoscopic ultrasound (EUS), as an initial pilot study.