View clinical trials related to Barrett's Esophagus.
Filter by:This research study hopes to identify new molecular markers in the tissue of Barrett's esophagus that will help physicians better understand and manage this condition. Patients undergoing an upper endoscopy will be asked to complete a gastroesophageal reflux disease (GERD) questionnaire, provide a blood sample and allow additional biopsies to be taken during the procedure.
The purpose of this pilot study is to provide an initial assessment of the feasibility, safety and efficacy of Polar Wand carbon dioxide cryotherapy for treatment of Barrett's low grade and high grade dysplasia by use in a small number of patients so as to support, or otherwise, the development of a full-scale trial.
Specialized columnar epithelium (SCE) is considered as pathognomonic for Barrett's esophagus. Chromoendoscopy after local acetic acid application enables recognition of the mucosal surface architecture. The new available EPKi processor (Pentax, Japan) enables HD+ resolution above HDTV standard. Aim of the study is to test the efficacy of HD+ endoscopy in conjunction with i-Scan or acetic acid to diagnose Barrett`s esophagus. The primary endpoint of the current prospective study is to investigate the diagnostic yield of virtual chromoendoscopy using the i scan function as compared to acetic acid chromoendoscopy and 4-quadrant biopsies. Patients with visible columnar lined lower esophagus (CLE) are included. After standardized PPI therapy (14 days; standard dosage) patients were randomized at a 1:1 ratio to undergo either chromoendoscopy in conjunction with acetic acid application or i-Scan. Biopsies are taken in a targeted fashion using acetic acid or i scan and afterwards 4-quadrant biopsies are taken.
The specific aim of this study is to determine the feasibility of marking target pathologic locations identified on Optical Frequency Domain Imaging (OFDI) datasets using superficial cautery marks of the esophagus that are visible by endoscopy for subsequent guidance of biopsy.
The goal of this research is to conduct a pilot clinical study to evaluate the potential use of esophageal Optical Frequency Domain Imaging (OFDI) for assessing the success and degree of injury associated with therapeutic radiofrequency ablation techniques.
Our institution performs therapeutic ERCP (Endoscopic retrograde cholangiopancreatography ), Endoscopic Ultrasound (EUS) and Interventional Endoscopy in around 1000 patients a year. Procedures such as biliary and/or pancreatic sphincterotomy, stents placement (metallic or plastic) and removal for revision, cysts and pseudocysts drainage are conducted in patients suffering from pancreatico-biliary disorders, gastrointestinal disorders and esophageal disorders. The investigators would like to assess prospectively the efficacy and safety of these routine procedures to permit identification of technical details about the procedures or other factors which might be associated with outcome or results. Assessment of these details would help us with problem identification and recommendations to improve health outcomes and quality of life in these patients.
The specific aim of this study is to determine the accuracy of Optical Coherence Tomography (OCT) imaging for screening and diagnosis of the distal esophagus in patients undergoing a clinical esophagogastroduodenoscopy (EGD) procedure. The accuracy of results obtained using the developed OCT imaging probe will be determined and compared with those obtained through the traditional standard of care endoscopic biopsy .
The overall objective of this pilot study is to determine whether multispectral imaging increases the diagnostic accuracy of the current standard of high-definition white-light endoscopy for the detection of Barrett's-associated neoplasia (high grade dysplasia or cancer). The investigators goal is to develop a multispectral endoscopic platform that can be used to survey a large surface area and, potentially, serve as a 'red flag' for microendoscopic imaging of small areas. The goal of this pilot study is to preliminarily determine the accuracy of these modalities during the endoscopic surveillance of Barrett's esophagus.
The overall objective of this study is to obtain data to evaluate whether high-resolution imaging of the gastrointestinal mucosain vivo can assist clinicians in detecting dysplastic (precancerous) areas. This is an exploratory study of a confocal endoscope designed to evaluate the feasibility of using this FDA-approved device in the endoscopic surveillance of subjects at high-risk for neoplasia in the upper and lower GI tract. The confocal endoscope provides real-time in vivo microscopic images of the mucosa which resemble standard pathology.
The overall objective of this study is to obtain data to evaluate whether high-resolution imaging of barrett's esophagus in vivo can assist clinicians in detecting dysplastic (precancerous) areas. This is a pilot study of an novel technology, a miniaturized microscope device which can be used during upper endoscopy to image the gastrointestinal epithelium. This is an exploratory, not a comparative, study designed to evaluate the feasibility of using this instrument in Barrett's esophagus.