View clinical trials related to Barrett Esophagus.
Filter by:This study is to identify potential markers from esophageal biopsies and brush cytology for feasibility of use in stool specimens for detection of Barretts Esophagus.
Will EG Scan (transnasal endoscopy) determine presence of Barrett's Esophagus, esophagitis and hiatal hernia as well as standard sedated endoscopy.
The purpose of this study is to provide a tool for physicians to compare outcome data related to the use of the HALO Ablation Systems. This study is a single-center patient registry which will contribute to a framework for treatment and follow-up of patients with Barrett's Esophagus.
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).
Barretts mucosa is a premalignant condition of the oesophagus, which can progress to cancer. Oesophageal cancer is aggressive, with a 5 year survival of only ~15%. High risk Barretts mucosa, containing high grade dysplasia or early cancer, can be removed by endoscopic mucosal resection (EMR) during gastroscopy. If patients can be effectively treated by EMR while they have premalignant or early malignant disease, it is a curative procedure. Currently, the major limitation of Complete Barretts Excision (CBE) by EMR, is scar tissue development in the oesophagus, leading to stricture formation and difficulty swallowing (dysphagia). If a safe and effective method could be found to reduce this risk, the treatment options for early oesophageal cancer would be greatly improved. CBE is performed as a two stage procedure, with 2 gastroscopies 8 weeks apart. In this randomised, doubleblind study, eligible and enrolled patients are randomised after the 1st stage CBE to receive either prednisolone tablets or placebo. Inclusion criteria are patients with short segment (<3cm circumferential disease) Barretts oesophagus with high grade dysplasia or early cancer. The treatment period is for 6 weeks after both CBE sessions. Prednisolone is given in a reducing dose over the 6 weeks, starting at 40mg daily. The primary outcome is symptomatic dysphagia development. Endoscopic dilation will be performed as required for dysphagia secondary to symptomatic oesophageal stricture formation persisting for ≥2 days, or complete dysphagia for any time period. Endoscopic surveillance with biopsies will occur at a 3 month, 6 month then 12 month interval following CBE, to assess for complete removal of Barretts mucosa. Following two stage CBE, stricture rates without preemptive therapy in noncircumferential, circumferential <2cm, and circumferential <3cm disease, are estimated to be 30%, 50% and 70% respectively. The investigators predict a 50% reduction in stricture rate with oral steroid therapy. With a primary analyses of oral steroid versus placebo tested at a 5% level of significance in a two tailed test, 58 patients are needed per group. Allowing for a 5% drop out rate, a total of 126 patients are required. The study will be performed at five Australian Tertiary Hospitals, and the recruitment period is estimated to be 2 years.
Using orally administered zinc to patients already diagnosed with the pre-cancerous condition, Barrett's Esophagus, this study is asking two questions: 1. can this zinc administration cause molecular-level changes in the Barrett's tissue? 2. are the changes measured indicative of chemopreventive action by zinc regarding cancer progression?
Imaging enhanced endoscopy can improve the efficacy of screening of Barrett's esophagus and predict its invasiveness. There is potentially molecular change over the Barrett's esophagus in this Chinese population. To evaluate the efficacy of imaging enhanced endoscopy for screening of Barrett's esophagus and evaluation of invasiveness
Prospective randomized study comparing radiofrequency ablation and cryotherapy for the endoscopic treatment of Barrett's esophagus. The study is powered to assess clinical equivalence (non-inferior) of the treatment regimens.
ESD (Endoscopic Sub-mucosal Dissection)is the first-intent method to treat superficial neoplasms of the digestive tract at it allows an en-bloc R0 resection. Following marking of the lesion margins, ESD comprises 3 steps: 1) liquid injection into the sub-mucosal space 2) circumferential (complete or partial) incision and 3) dissection of the submucosa. Several tools are necessary to perform ESD with the standard technique. Development of water jet with bi functional (injection and cutting) catheter allows time and significant reduction of perforation risk (due to multiple changes of instruments). For this purpose, Nestis introduced the Enki 2 pulsed jet technology with high pressure system to inject efficiently and at any time viscous solutions in direct viewing and retroflexion. Preliminary pig studies indicate that injection of glycerol, hyaluronate and hydroxyethlstarch with Enki 2 are possible. In addition, preclinical studies on living pig colon models using saline solutions have demonstrated that perforation rates and operating times are significantly reduced compared to a standard electrosurgical knife. The present clinical study is being performed to confirm this system capability to perform ESD in humans.
Secretrol administered over a 6 month period to patients with Barrett's Esophagus will be safe and well tolerated. Further, pH control will be evaluated in the distal esophageal mucosa and just below the squamocolumnar junction.