View clinical trials related to Barrett Esophagus.
Filter by:You are invited to participate in a research study to develop new ways to look for abnormal areas/tissues of the esophagus. The current endoscopes used to look at the esophagus are very good, but if the area doesn't look different to the naked eye, then the endoscope can't improve on that. The investigators are looking at using special fluorescent stains in addition to special endoscopes designed to see abnormal areas that are not obvious to the naked eye. Currently specialized microscopes and fluorescent stains are used in clinical laboratories but it takes several days of processing to get results. It may be very helpful to look for areas to sample for abnormal tissue during the endoscopy procedure. You are being asked to let us use "fluorescent peptides" with a special endoscope that allow us to "see" your esophagus with both fluorescent and white light during your upper GI endoscopy procedure to help target your biopsies. Peptides are small chains of amino acids (the building blocks that make up proteins) linked together. Our peptide is a chain of 7 amino acids attached to a fluorescent dye called FITC (like the one used by your eye doctor). The investigators have prepared special "fluorescent peptides", that will "glow" when a special light is used that should help us separate normal tissue from abnormal tissue. In this study, the investigators will apply the special fluorescent peptides by a spray catheter to your esophagus to help us target you biopsies. Both routine and targeted biopsies will be taken as your endoscopist feels is indicated. This is a phase 1b study. This means that although the investigators have applied the peptide to 25 people in our first research study, the investigators still need to learn more about "fluorescent peptide" in people. The Food and Drug Administration (FDA) has not approved this agent, but is allowing us to test it in this study. The main goal of this study is to see if the peptide "glows" well and if the investigators can take pictures of the areas that do glow. This is a research study of the peptide and our ability to see it "light up or fluoresce". Being in this study and applying this peptide won't change how your biopsies are taken nor how your endoscopy is done.
Acetic acid chromoendoscopy is an established standard technique used to detect dysplasia within the gastrointestinal tract. Acetic acid spray helps to identify neoplasia by highlighting the surface pattern, highlighting the vascular pattern and by a process known as the aceto-whitening reaction, where tissues take acetic acid and turn white for a brief period and then slowly revert back to a normal colour. The neoplastic surface and vascular pattern are all very well described, and have played a big role in the recognition of early cancer. The aceto-whitening reaction is well described but the differential in timing between neoplastic and non-neoplastic areas is not well understood. The investigators aim to establish the differential in the timing of the disappearance of the aceto-whitening reaction between healthy tissue, dysplastic tissue, intramucosal cancer and invasive cancer after acetic acid dye spray in the oesophagus and colon. By understanding this better, the investigators may be able to predict with greater accuracy whether a highlighted abnormal area is cancer or high grade dysplasia, or whether it is low grade dysplasia or inflammation, which has significant prognostic implications for the patient. The investigators hypothesize that the differential in the timing of the disappearance of the aceto-whitening reaction between normal and abnormal tissue could help in the detection of gastrointestinal neoplasia.
Narrow Band Imaging(NBI) improves image contrast by allowing the blue light centered at 415 nanometers which is heavily absorbed by oxyhemoglobin to highlight the tissue's microvasculature and enhances detail on the surface of the mucosa revealing subtle changes. Barrett's esophagus(BE) has the mucosal and vessel changes during cancer transformation by angiogenesis. The ability of the NBI scope to visualize submucosal vessels forms the premise for the prediction of dysplasia in BE mucosa. NBI images of the BE mucosa obtained during endoscopy will be classified by academic endoscopists and community endoscopists initially. The endoscopists will then be asked to predict histopathology based on the NBI surface patterns. This clinical trial will evaluate the inter-observer agreement of a simple, consensus driven narrow band imaging (NBI) classification system of surface patterns and its ability to differentiate dysplastic versus non-dysplastic Barrett's esophagus(BE) in patients undergoing BE screening or surveillance in expert academic centers and in community GI practice as well. Their performance will be evaluated for accuracy, sensitivity, specificity, positive predictive value and negative predictive value of each pattern that is visualized on NBI.
This clinical trial will evaluate a patient population with Barrett's esophagus(BE) containing high grade dysplasia or intramucosal cancer and compare the effects of endoscopically-guided radiofrequency ablation system(RFA) and endoscopically-guided stepwise endoscopic mucosal resection(S-EMR).
To Compare the overall quality of life of patients with no Barrett's esophagus , non-dysplastic Barrett's Esophagus (NDBE), Barrett's esophagus with low grade dysplasia (LGD), and Barrett's esophagus with high grade dysplasia (HGD). We also Compare the overall quality of life of Barrett's esophagus patients with severe gastroesophageal reflux disease (GERD) symptoms to those with no GERD symptoms
The purpose of this study is to determine biomarkers which can predict response to ablation therapy in patients with Barretts esophagus.
The study consists on determining whether melatonin decreases oxidative stress in Barrett's esophageal mucosa after 6 months of treatment. In order to achieve the clinical trial, the patients will be randomized to two possible arms: omeprazole alone or omeprazole plus melatonin. The patients will be followed around four visits during six months. GERD is one of the most prevalent pathologies in the digestive tract. Barrett's esophagus, a complication of chronic GERD, has attracted the attention of researchers due to its condition of pre-neoplastic lesion. At present, treatment of Barrett's patients is limited to acid inhibition with PPIs. Although there are several studies which indicate that treatment with PPIs could decrease the incidence of high grade dysplasia and EAC, treatment with PPIs does not eliminate the risk of EAC in these patients. Therefore, it is necessary to find chemo-preventive agents that stop neoplastic progression of Barrett's esophagus. Among them, antioxidants have become the most promising agent. This pilot study will determine the efficacy of melatonin in the chemoprevention of EAC. So, the main objective of this study is to determine whether melatonin decreases oxidative stress in Barrett's esophageal mucosa after 6 months of treatment. To evaluate whether melatonin modifies other mechanisms associated to neoplastic progression in BE patients: proliferation and apoptotic index and molecular markers of progression: 17pLOH, 9pLOH, p16 methylation and DNA ploidy (tetraploidy and/or aneuploidy).
The primary objective of this clinical trial is to evaluate the performance of the Nvision Volumetric Laser Endomicroscopy (VLE) system to visualize subsurface tissue in subjects undergoing esophagogastroduodenoscopy (EGD) and to identify work-flow and training implications for introducing this new imaging modality.
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.