View clinical trials related to Pancreatic Cyst.
Filter by:Identifying biomarkers of early pancreatic ductal adenocarcinoma (PDAC) could facilitate screening for individuals at higher than average risk and expedite the diagnosis in individuals with symptoms and substantially improve an individual's chance of surviving the disease. The investigators propose a longitudinal study of subjects at higher than average risk of PDAC in order to generate clinical data and bank serial blood specimens.
The effective diagnosis of pancreatic cancer is often quite challenging, due to a lack of disease-specific symptoms, resulting in the majority of patients presenting with advanced disease, with an associated dismal prognosis. Earlier detection of pancreatic cancer, at a stage where surgery is feasible, would greatly increase the 5-year survival rate. Detecting pancreatic cancer early is therefore vital to improve the prognosis for these patients. Pre-cancerous pancreatic cysts are an early indicator of malignant transformation. The ideal screening test would be capable of detecting pancreatic cancer at these initial stages. Current procedures for pancreatic cancer diagnosis are invasive, uncomfortable and costly, and can be considered unnecessary in those cysts found to be benign. We propose to study a number of tumour regulatory molecules that have been the subject of research in laboratories at the University of Hull (e.g., tissue factor (TF), adrenomedullin (AM) using enzyme-linked immunosorbent assays (ELISA) tests) that have been studied in the context of carcinogenic transformation in more common malignancies but have yet to be fully tested in pancreatic malignant transformation. The recent introduction of platform technologies at the University of Hull has broadened this area of investigation by giving us access to next generation genomic sequencing and proteomic analyses of small amounts of tissue samples. We intend to analyse pancreatic cystic fluid samples using these technologies to discover new regulatory molecules. Altogether, his study will measure the levels of novel regulatory molecules and genetic changes involved with pancreatic cancer carcinogenesis using a combination of conventional techniques (e.g. ELISA) and state-of-the-art platform technologies in pancreatic cysts from those patients in whom cancer may be suspected, to determine the potential of these molecules to serve as markers to detect early changes towards pancreatic cancer.
The study schema is shown in Figure 4. (A) All patients referred to one of the participating academic centers for EUS evaluation of the PCL will be enrolled in the protocol if they satisfy inclusion criteria. Patient consent will be obtained during the clinic visit or prior to their EUS. EUS-guided nCLE imaging is first performed (B) followed by EUS-guided FNA and aspiration of cyst fluid. The cyst fluid is analyzed for CEA and cytology. As per institutional standard of care, the cyst fluid is also sent for molecular analysis. The results of the cyst fluid molecular analysis (B) will be utilized for the most likely diagnosis. Based on institutional multidisciplinary tumor board meetings, surgery is performed as indicated (C). Surgical histopathology serves as "gold standard" for diagnosis. It is anticipated that the majority of patients will undergo surgical resection after their EUS.
The purpose of this study is to develop a minimally invasive test to diagnose pancreatic cancer at early stages of disease and monitor response to treatment.
Bio-repository to collect bio-specimens from patients with 1) pancreatic cysts and 2) patients at high risk, defined by family history and/or genetic mutations, for pancreatic cancer.
Pancreatic cancer is a very aggressive cancer. Over the past 40 years there has not been much progress made in reducing deaths from this cancer. Recently, new models of pancreatic cancers have been generated from mouse and human tissues. These models have used larger pieces of tissues taken from surgical removal of pancreatic cancers. The purpose of this study is to determine whether these new pancreatic cancer models can be generated from the small biopsies we take to make the diagnosis of the pancreatic mass.
RATIONALE: 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).
The purpose of this study is to establish a registry of patients with pancreatic diseases. Patients included in the registry may include those with: pancreatic cancer, precancerous lesions of the pancreas, inflammatory lesions of the pancreas, cystic lesions of the pancreas, and patients at high-risk of pancreatic cancer such as those with a family history of pancreatic cancer or with a family history of a syndrome known to be associated with pancreatic cancer. Pancreatic cancer is the fourth leading cause of death from cancer in the United States. However, little is known about the development of pancreatic cancer and pancreatic diseases in individuals with the above conditions. Knowledge of how family history, environmental exposures, and inflammatory lesion of the pancreas contribute to the development of pancreatic cancer and pancreatic diseases is essential. You may qualify to take part in this research study because you have inflammation in the pancreas, a pancreatic cyst, pre-cancerous lesions of the pancreas, pancreatic cancer, a family history of pancreatic cancer, or a family history of a syndrome known to be associated with pancreatic cancer. We will also be collecting a blood sample from all participants for DNA isolation. Sometimes we are born with genes or DNA that give us an increased or decreased chance of developing an illness later in life. Genetic material will be isolated from your blood for further study. You may also choose to provide additional blood samples for serum and plasma extraction. Serum and plasma are components of the blood which can be used to measure indicators of disease in the blood, called biomarkers,for pancreatic diseases. Clinical data and biological specimens contained in this study may be used for a wide variety of future related studies to the cause, diagnosis, outcome and treatment of pancreatic cancer. Funds for conducting this research are provided by Mount Sinai.
The purpose To determine the diagnostic potential of various biological markers in blood and cyst fluid aspirates from patients with Pancreatic Cystic Lesions (PCLs). Research design This is a 10-year prospective cohort and pancreatic cyst fluid repository study enrolling all patients diagnosed with pancreatic cyst and undergoing the cyst aspiration. Procedures to be used Blood Sample Cyst Fluid Sample Data Collection: Medical Record Number Demographics (age, sex, gender, race) Contact information History of alcohol use and IV and other recreational drugs and narcotics use/abuse Medication history Past hospitalizations, diagnoses, and treatment Physical examination findings Imaging data of abdominal and chest regions, including and not limited to ultrasonography, magnetic resonance imaging (MRI), computed tomography (CT) Future admissions, diagnoses, treatment including histopathological findings of resected specimens and blood reports End of study data: clinical progression of disease, cyst size, wall thickening, calcification, communication with pancreatic duct, string sign, cytology, immunohistochemical findings, assay levels of lipase, amylase CEA (carcinoembryonic antigen), carbohydrate antigen19-9 (CA 19-9), and other biomarkers. Risks and potential benefits The risks associated with this study are slight discomfort or bruising from the blood sampling and the possible loss of confidentiality if the patient data or information is inadvertently disclosed outside of this study. The patient will not receive any additional benefit from the study aside from those received as part of routine standard of care. Importance of knowledge that may reasonably be expected to result The knowledge gained from this study may benefit other patients with Pancreatic Cyst Lesions in the future.
This is a registry that will maintain prospective data on the clinical outcomes of all patients with pancreatic cyst lesions who undergo EUS-guided alcohol ablation.