View clinical trials related to Barrett's Esophagus.
Filter by:The purpose of this study is to collect prospective observational data regarding endoscopic management and outcomes of patients with Barrett's oesophagus (BO) with high grade dysplasia and/or intramucosal carcinoma. To observe the natural history of patients with low grade dysplastic and non dysplastic Barrett's oesophagus
The overall goal of the study is to determine whether imaging with the low-cost High Resolution Microendoscope(HRME) will increase the efficiency and yield of the current standard of endoscopic surveillance of Barrett's esophagus. We believe the HRME will provide an in-vivo "optical biopsy" that will be comparable to gold standard histopathology and allow the endoscopist to make a more informed decision about whether to obtain a biopsy or even perform endoscopic therapy (i.e. endoscopic mucosal resection, EMR).
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.
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.
In this prospective single center study, up to 25 patients with Barrett's esophagus with LGD or no dysplasia (Group 1), 25 patients with HGD/IMCA (Group 2), 25 patients with esophageal carcinoma confined to the esophageal wall (Group 3) and 25 patients with severe esophageal squamous dysplasia (Group 4) will be treated with endoscopic cryotherapy. This study is single arm and no blinding will be utilized. Interim analysis of the data will be reviewed with a DCI statistician after 14 patients in each group have been treated with cryotherapy and if safety and efficacy is documented to that point in time, we will request the ability to extend the enrollment to a maximum allowable amount of 25 patients per group. The proposed study duration is seven years, allowing two years for patient enrollment and 5 years for post treatment follow-up. Study duration per patient will total approximately six years. Patients with Barrett's esophagus with no dysplasia or low grade dysplasia (group 1) will be treated with cryotherapy at six week intervals until Barrett's mucosa is ablated or six treatments are administered. Patients with Barrett's HGD and IMCA or severe esophageal squamous dysplasia (groups 2 and 4) will be treated with cryotherapy at six-week intervals until Barrett's mucosa is ablated or six treatments are administered. More advanced mass lesions are typically more difficult to eradicate with ablative therapies and may progress faster than patients with IMCA, therefore, patients with more advanced cancer (group 3) will be treated every 2 weeks until the lesion is eradicated up to eight treatments. After cryotherapy treatment is complete (i.e. the esophagus has re-epithelialized with normal squamous epithelium for Groups 1, 2, 4 and the tumor is locally controlled/absent in Group 3), patients will be assessed by endoscopy and biopsy every three months for one year, every six months for two years, then annually for two years (flow sheet - appendix 1; study schedule - appendix 2).
- The use of high resolution endoscopy (HRE), narrow band imaging (NBI) and chromoendoscopy increases the detection rates of Barrett's esophagus (BE) and early neoplasia. - Endoscopic mucosal resection (EMR) will improve the accuracy for detection of dysplasia/early neoplasia. Specific Aim 1 - To create a video-atlas of non-dysplastic and dysplastic/early neoplastic lesions in patients with BE. This will be used for training purposes and to assess learning curve associated with these new technologies. Specific Aim 2 - To create a standardized classification system for the mucosal and vascular patterns observed in patients with BE. Specific Aim 3 - To determine the interobserver agreement using the video-atlas for the mucosal and vascular patterns classification agreed upon. Specific Aim 4 - To determine the endoscopic detection rate of esophageal cancer or precancerous lesions removed during endoscopy. Specific Aim 5 - To determine the pathologic and clinical outcomes of patients undergoing EMR/ablation; including morbidity, mortality and complications of the procedure. Results to date (June 2008) : this study is active and open to enrollment. Currently 26 patients have enrolled in this study at the Kansas City VA medical center. In order to participate, patients must be eligible for care at the KCVA hospital.
The purpose of this study is to determine or evaluate the risk factors such as smoking, family history etc. that cause esophageal cancer and to determine the genetic changes that lead to esophageal cancer. The investigators hypothesis is that systematic collection of data on the natural history of GERD and BE patients and risk factors for development of BE in patients with chronic GERD and progression of BE to dysplasia and adenocarcinoma will provide useful information to develop a decision model for risk stratification and risk reduction strategies in these patients. As of March 17, 2011, 585 patients have consented at the Kansas City VA Medical Center.
The overall objectives of this BETRNet Research Center (RC) are: 1. to conduct a rigorous, integrated spectrum of transdisciplinary human research in Barrett's esophagus (BE) and esophageal adenocarcinoma (ECA) 2. to increase the biological understanding of key observations made by our clinical researchers; 3. to translate knowledge derived from genetic, epigenetic, and transcriptome research to solving clinical dilemmas in detection, prognosis, prevention, and therapy of BE in order to prevent EAC and improve the outcomes of EAC; 4. to foster a transdisciplinary and translation research culture and to effectively expand and enhance scientific research focused on BE and EAC; 5. to evaluate research and transdisciplinary programs and to continuously improve research, productivity and enhance translational implementation. These objectives build and synergize on existing multi-institutional collaborative networks and the considerable clinical, basic science, and translational expertise available at our institutions, focusing on improving the outcomes of patients with BE and EAC. The overarching organization framework for this RC proposal is 1) to focus laboratory research on understanding the genetic susceptibility, genomic and epigenetic changes that influence the development of BE and EAC; and 2) to then translate laboratorydiscoveries into clinical applications for effective detection, molecular risk stratification, and prevention of progression from BE to EAC.