View clinical trials related to Barrett Esophagus.
Filter by:The goal of this research is to test a distal scanning capsule and a compact redesigned version of the OFDI imaging system in healthy and BE subjects to assess ease of use, safety and feasibility in preparation for its use in a multicenter clinical trial.
The aim of this study is to establish a nationwide registry to collect data regarding the treatment of Barrett's Esophagus (BE) with radiofrequency ablation. The objective of this registry is to increase the number of data and therefore obtain a raise of quality assurance and improve outcome and patient security. Furthermore to provide participating physicians information and experience for treatment details in the therapy of BE.
A prospective outcomes study in patients with and esophageal cancer (EAC) and Barrett's esophagus (BE) associated neoplasia being evaluated for endoscopic eradication therapy (EET).
This study assesses the quality of the resection of early neoplasia arinsing in Barrett's esophagus using endoscopic submucosal dissection. It is a multicenter prospective registry among 7 centers including all consecutive patients with early Barrett's neoplasia of 15 mm or more in size treated by endoscopic submucosal dissection.
This study will evaluate, if an intensive individually adaptated training program via online supervision during neoadjuvant therapy will improve lung function and reduce pulmonary complications following esophagectomy for Barrett's cancer.
The primary purpose of this study is to test new methods to diagnose BE in time before it turns into advanced cancer. Once BE is diagnosed, the current standard of care is to monitor the disease so that complication such as cancer can be diagnosed early. The two new methods the investigators are evaluating are: a) blood test and b) brush test of the food pipe. The investigators will collect blood, bile and cells from the food pipe and stomach and measure for a biomarker called microRNA (miRNA). In the future, measurements of microRNA biomarkers could help the doctors figure out which patients are at increased risk for cancer of the esophagus.
Problem statement Barrett's oesophagus is a pre-cancerous condition affecting 375,000 people in the U.K. There is a 0.5-3% yearly risk of progressing to oesophageal cancer, from which only 5% of patients will survive for 5 years after diagnosis. Diagnosing the disease at the stage of dysplasia (pre-cancerous) and early cancer improves survival. This has led to the current surveillance strategy of gastroscopy with non-targeted mapping biopsies taken from the Barrett's oesophagus every two years. The large number of biopsies required is time consuming and expensive, yet dysplasia and cancerous tissue is still missed due to the non-targeted biopsy sampling strategy. Acetic acid has been used effectively in the early detection of cervical dysplasia and cancer, and has also been used with success in a high risk Barrett's population (patients with suspected dysplasia or previously treated dysplasia), but not been studied in the lower risk Barrett's surveillance population. A diagnostic study of non-targeted mapping biopsies (current practice) versus targeted biopsies (acetic acid) in a surveillance population is needed before widespread adoption of this technique is possible.
Purpose: To assess the utility of a new medical device that monitors a patient's breathing during medical procedures in which a patient is sedated, but not mechanically ventilated. In minor procedures, such as endoscopy (where the doctor examines a patient's digestive tract by a TV camera inserted through the mouth), patients do not require general anesthesia, in which a machine would take over their breathing while they are unconscious for surgery. However, during endoscopic procedures it is sometimes difficult for the anesthesiologist to monitor the patient's breathing—specifically, to monitor changes in breathing patterns and the adequacy of breathing. In endoscopy procedures, the room is darkened, and the patient's mouth is generally occupied by the endoscope. While the anesthesiologist can listen to the patient's breathing sounds with a stethoscope, this type of monitoring can only be done periodically, and there is limited ability to gauge the adequacy of ventilation. This study will use the ExSpiron Respiratory Volume Monitor (RVM), which measures non-invasive minute ventilation (MV), tidal volume (TV) and respiratory rate (RR), in patients undergoing an endoscopic procedure to provide additional information regarding the effects of clinical interventions such as drug administrations or airway maneuvers on the patient's respiratory status. For patients who give informed consent, study participation means that they will have a PadSet consisting of 3 electrodes applied to the chest. Another component, a nasal cannula (a thin clear plastic tube that goes under the nose) will give patients supplemental oxygen, and is standard of care for endoscopy at UVM Medical Center. Patients will then be asked to breathe in and out of a portable spirometer (breath meter) for 30 seconds up to five times. This data will be compared to data recorded by the monitor to confirm that the monitor is recording accurately. The procedure will then go forward in the normal fashion. Patients will be randomly placed into one of two groups. In the first group during the procedure, the anesthesiologist will not be able to see the numbers (MV, TV, and RR) displayed screen of the monitor, so the data will not be used to guide the patient's clinical care. In the second group, the anesthesiologist will be able to see the RVM measurements of MV, TV, and RR to evaluate the effect of the interventions. Monitoring for both groups will continue in the recovery room, until discharge.
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).