View clinical trials related to Barrett Adenocarcinoma.
Filter by:This study aims to develop a highly sensitive, specific, and cost-effective blood assay for the early detection of esophageal adenocarcinoma and its precursor lesions, using advanced machine learning and state-of-the-art biological analyses.
Rationale: Research on novel methods to screen for esophageal adenocarcinoma (EAC) has expanded. Insight into individuals' drivers and barriers to attend screening is essential to tailor a potential new screening policy to their preferences. Public preferences should also be considered on the organizational level to guarantee client-centered decision-making in the design of the screening process. Objective: This study will examine Dutch individuals' intended uptake of EAC screening, including factors that predict uptake, and their views on its organization. Study design: Cross-sectional population-based survey. Study population: Dutch individuals aged 45-75 years. The required sample size is 2088 and 8350 individuals will be invited based on an assumed participation rate of 25%. Methods: Eligible individuals will be selected from the Dutch population registry (BRP) using simple random sampling. Invitations will be sent by postal mail with participants being directed to a digital survey. Main study parameters/endpoints: The primary outcome of the study is the intended uptake of EAC screening (strong vs weak). Secondary study endpoints are the perceived need for consultation, perceived need for general education campaigns, acceptability of risk stratification scenarios, and acceptability of using health care resources for EAC screening. Nature and extent of the burden and risks associated with participation, benefit and group relatedness: Subjects will not directly benefit from participating in this study. Nonetheless, participating in this study is not associated with any healthcare risks and the burden for the subjects is very low. The survey has a low burdensome nature and will take approximately 15 to 20 minutes to complete. All data will be pseudonymized, refusal to fill out the survey or desire to withdraw from the study will not have any consequences for the invited subject.
In the real-time pilot study, the performance of a recently developed Computer Aided Detection (CADe) system will be investigated in 30 patients during real-time live endoscopic examination. Three expert endoscopists in the field of Barrett's esophagus and endoscopic resection techniques will perform the inclusions following a standardized data acquisition protocol. In total, 15 patients with a visible neoplastic lesion in their Barrett's esophagus and 15 patients without any visible abnormalities in their Barrett's esophagus will be included in this study. Outcomes: to investigate feasibility of the use of the CADe system in the endoscopy suite, to investigate the performance of the CADe system when used by endoscopists.
Rationale: The optimal technique for removal of visible dysplastic lesions in Barrett's esophagus remains controversial. Endoscopic mucosal resection (EMR) is safe, effective, easy to apply, and has been the most widely used technique since 2008. Endoscopic submucosal dissection (ESD) is a more controlled dissection method with potential improved efficacy, but at the cost of higher technical complexity. Objective: The investigators aim to compare EMR and ESD for removal of visible lesions in Barrett's esophagus. Study design: Randomized clinical trial Study population: Patients with Barrett's esophagus and a visible lesion with dysplasia and/or early cancer. Suspicion for submucosal invasion is an exclusion criterion. Intervention: Patients are randomized to receive either EMR or ESD, with follow-up and no ablation during 12 months after the resection. Main study endpoint: Primary endpoint is the proportion of patients with no evidence of residual or local recurrent neoplasia during 12 months follow-up after baseline.
The study will compare EMR versus ESD technique (both combined with subsequent ablative therapy) of mucosal resection in Barrett's esophagus with regard to efficacy and risk in a long term setting.
This study is being done to test the usefulness of extracellular matrix (ECM) a thin sheet placed over the site after endoscopic mucosal resection to promote healing of the esophagus.
Conventional techniques of endoscopic mucosal resection (EMR) by snare resection do usually not achieve resection of gastrointestinal mucosal neoplastic lesions larger than 1 cm in diameter in a single piece. Complete R0 resection cannot be histologically confirmed. In contrast to EMR the technique of endoscopic submucosal dissection (ESD) allows en-bloc resection even of large neoplastic lesions. The waterjet-assisted ESD technology (WESD) allows pressure controlled injection of fluids through the tip of a recently developed HybridKnife®. Submucosal injection, circumferential cutting and dissection of lesions as well as coagulation of bleeding sources can be performed with the same device without need for changing the instrument. Our group reported on effective en-bloc resection of esophageal areas in all of 14 cases of an Erlangen porcine model. We subsequently compared WESD with EMR of predefined esophageal mucosal lesions in anesthetizised pigs in a randomized controlled trial. The results demonstrated that WESD more frequently achieved a complete resection with a significantly lower number of specimen. WESD caused no perforations and bleedings could be endoscopically managed during the procedure. In addition we recently reported on this technology in a first clinical trial on WESD for early Barrett`s neoplasia . The results indicated that WESD can be safely and effectively performed in the esophagus. Therefore the primary objective of this study is to compare the R0 resection rate of ESD and EMR for visible lesions of HIgh grade intraepithelial neoplasia (HGIN) or esophageal adenocarcinoma (EAC). Secondary objectives are related to completeness of resection, safety of the procedures, the medium term outcome and comparison of costs.
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.