View clinical trials related to Barrett's Esophagus.
Filter by:Barrett's oesophagus is a pre-cancerous condition in which normal cells in the lining of gullet undergo cell changes and this increases the risk of developing adenocarcinoma (a type of cancer) of the gullet. This type of cancer is the 5th most common type of cancer in the UK. To minimise this risk of developing cancer, patients with Barret's oesophagus have regular gastroscopy (a small camera at the tip of the slim tube) every 2-5 years to detect early cancer cell changes. During the procedure, the whole of oesophagus is carefully inspected, and small tissue samples (biopsies) are taken from visible abnormal area within Barrett's oesophagus and sent to the lab to check for cell changes. This is called targeted biopsies. As the endoscopist cannot always tell during gastroscopy where cells are changing, biopsies from each quarter of the gullet (called quadrantic biopsies) are also taken to reduce the risk of pre-cancerous cells being missed. However, this process is time consuming and expensive as numerous biopsies are required. Recently, there has been a huge development in artificial intelligence (AI). One of these developments is the aid of computer to detect (called computer-aided detection - CAD) the abnormal cell changes within Barrett's during gastroscopy. This system has recently been trained and tested on videos and photos to prove that its performance is as good as expert endoscopists. This system has been already approved to use in the UK. However, this system needs to be tested further and incorporated into real life use to prove that the CAD is useful in detecting cell changes during gastroscopy for targeted biopsies and therefore, the random biopsies can be avoided. A sample of patients with Barrett's oesophagus will be invited to participate in this study. Participants will have a gastroscopy as part of their usual care for Barrett's oesophagus. Endoscopist will inspect Barrett's oesophagus using AI and will take both targeted biopsies if clinically deemed appropriate along with quadrantic biopsies. Participants will continue to receive usual care and no additional follow up or procedures will be required as part of the study.
Detections of goblet cells and dysplasia are crucial for diagnosis and determining the surveillance program of Barrett's esophagus (BE). However, the optimal biopsy numbers and their yield rates of intestinal metaplasia (IM) and dysplasia are still uncertain, especially in Asia. The aim of this study was to determine the optimal biopsy protocol of BE.
Evaluate the efficacy and safety of the C2 CryoBalloon 180° Ablatie Systeem (CBAS180) at decremental doses for the treatment of dysplastic Barrett's epithelium.
Background Barrett's esophagus (BE) is defined by AGA as "a change in the esophageal epithelium of any length that can be recognized at upper endoscopy and is confirmed to have intestinal metaplasia by biopsy". It is a pre-malignant condition and may progress to low grade dysplasia, high grade dysplasia and ultimately esophageal adenocarcinoma which has poor prognosis with a 5-year survival rate of only 5-20%.Radiofrequency ablation (RFA) is a standard modality and well-studied endoscopic treatment for dysplastic BE. While the rate of complete eradication of dysplasia has been reported to be between 78% - 94% with RFA, the rate of complications associated with this procedure has been reported to be as high as 19.1%, and the costs are high. In a randomized clinical trial in patients with BE and low-grade dysplasia by Phoa et al in 2014, 68 patients underwent radiofrequency ablation therapy with a median of three ablation sessions per patient while 68 patients were randomized to endoscopic surveillance. In this study, a total of 13 patients (19.1%) experienced an adverse event in the treatment group versus no adverse events in the control group. Eight patients (11.8%) developed esophageal strictures which required a median of one dilation, three patients were noted to have small mucosal lacerations, one patient developed retrosternal pain treated with analgesics while one patient developed abdominal pain requiring hospitalization and treatment with analgesia. Several other studies have reported the rate of complications ranging between 5% to 19.1% and stricture formation being the most common among them. Hybrid argon plasma coagulation (H-APC) is a newer technique that involves submucosal fluid injection prior to performing APC. The injection of solutions (e.g., 0.9% sodium chloride solution (normal sterile saline) with or without supplementation of epinephrine, methylcellulose solution, hydroxyethyl starch, hyaluronic acid, autologous blood or blood substitute fluids) into the submucosa to limit the depth of thermal injury has been established both in pre-clinical studies for different tissues of the gastrointestinal tract and in the clinical practice for EMR and ESD, respectively.
The purpose of this study is to develop a method to detect Barrett's esophagus (BE) in individuals with a new office-based diagnostic test.
The goal of this study is to optimize Barrett's Esophagus (BE) screening to reduce the incidence, morbidity, and mortality of Esophageal Adenocarcinoma (EAC).
The increasing incidence of Esophageal Adenocarcinoma (EAC) in several Western countries can be primarily ascribed to risk factors such as obesity, chronic gastroesophageal reflux, dietary habits and alcohol intake. Nevertheless, Barrett's Esophagus (BE), remains the main risk factor for EAC. Several studies supports the role played by the gut microbiota on the modulation of metabolic and immunological pathways. An abnormal state of the microbial ecosystem seems to be involved in the promotion and onset of various diseases, including cancer. Recent studies have shown that diet and lifestyle have an important modulatory role as protective or risk factors for oncological diseases. The World Cancer Research Fund (WCRF) and the American Institute for Cancer Research (AICR) released a review of the evidence that emerged from published studies in the field of nutrition and cancer prevention and summarized their findings into 10 recommendations. Several studies have also shown that a moderate caloric and/or protein restriction seems to be able to reduce the risk of neoplastic disease development. The primary aim of this study is to evaluate the impact of a lifestyle-oriented intervention on body weight, waist circumference, biomarkers associated with cancer risk, esophageal microbiota composition and adherence to cancer prevention recommendations after 24 months in overweight or obese BE patients. Methods and analysis: Patients are randomly divided into two arms, a control arm (CA) and an interventional arm (IA). The CA receives information about a correct lifestyle to prevent cancer. The IA is involved in the two-year program of moderate caloric and protein restriction. At the time of enrollment, anthropometric measurements will be recorded for each patient and they will be randomized to IA or CA. Blood samples will be obtained from each patient and blood glucose will be determined. Serum metabolic biomarkers will be measured in each serum sample and total proteins will be extracted from fresh frozen esophageal biopsy and will be analyzed to evaluate the insulin signal pathway. To assess esophageal microbiota profiling, total genomic DNA (gDNA) will be extracted from matched fresh frozen biopsy. In order to determine a score of adherence to cancer prevention recommendations, participants will be asked to complete a self-administrated questionnaire reflecting WCRF/AICR recommendations. All the measurements will also occur at the end point, after two years from the enrollment.
Lay summary: Barrett's Esophagus (BE) involves a change of the esophagus lining (BE epithelium) which in a small proportion of patients could be the starting point for the development of cancer (esophageal adenocarcinoma). Currently, there is evidence that this change is initiated by acid reflux from the stomach which then could progress in a stepwise manner from the healthy epithelium to cellular changes (intestinal metaplasia, low-grade and high-grade dysplasia) and finally to adenocarcinoma. Surgery is considered the standard therapy for this cancer which involves the risk of death and complications with quality of life impairments. New possibilities for treatment have evolved with endoscopic therapies which allow for treatment of early changes of the epithelium (intestinal metaplasia and dysplasia) prior to the occurrence of cancer using either argon plasma coagulation (APC) or radiofrequency ablation (RFA). Both are established methods for eradication of BE by thermal ablation of the BE epithelium using high frequency current (HF). More advanced BE epithelium with early visible cancers are being treated by endoscopic mucosal resection (EMR). After EMR the residual Barrett's epithelium can also be removed by ablation with RFA or APC. Currently radiofrequency ablation (RFA) has been suggested as the standard therapy for BE treatment. Although effective in the eradication of the BE epithelium after RFA treatment the re-appearance of BE epithelium and the occurrence of complications such as strictures causing swallowing impairments for food have also been observed in clinical studies. A recently developed method is Hybrid argon plasma coagulation (ablation) [HybridAPC® (HAPC)] which combines argon plasma coagulation (APC) with a fluid injection function by a water beam. The water beam allows to establish a fluid cushion (normal sterile saline) right beneath the BE-epithelium prior to thermal ablation thereby protecting the esophagus wall from heat during ablation of epithelium with APC. The goal of this randomized controlled study is to investigate if HAPC is non-inferior to RFA in the stricture-free eradication of the dysplastic BE epithelium.
The hypotheses are: 1) the intestinal stem cell marker, DCLK1, which is increased in both the epithelium and stroma in colon cancer is also increased in BE (Barrett's esophagus) with HGD (high grade dysplasia) and in EAC (esophageal adenocarcinoma), 2) this expression correlates with disease progression towards EAC and 3) eradication of cells expressing stem cell markers occurs after therapy of EMR (endoscopic mucosal resection) or RFA (radiofrequency ablation) to eradicate BE with HGD and intramucosal adenocarcinoma and esophagectomy for EAC. We will test our hypotheses with the following aims: 1) To characterize the cell specific expression patterns of intestinal stem cell biomarkers in BE patients and correlate them with serum expression and disease progression, 2) To examine prospectively the effects of EMR, RFA or esophagectomy on the expression of stem cell biomarkers and the progression to EAC.
The purpose of this study is to evaluate the efficacy and safety of the new technique of HybridAPC in the treatment of Barrett.