View clinical trials related to Endoscopy, Digestive System.
Filter by:Oesophageal and gastric cancer are two of the six less survivable cancers, responsible for half of cancer deaths and a quarter of cancer cases. Six cancer charities have called for focused efforts to improve the poor outcomes for these cancers that have changed little in recent years (lesssurvivablecancers.org.uk). Improving endoscopy standards to minimise missed cancer cases will be an important contribution to improving oesophageal and gastric cancer outcomes. Endoscopy, flexible telescopic examination of the oesophagus, stomach and duodenum, is the method of choice for diagnosing upper gastrointestinal (UGI) cancer and its main purpose is usually to exclude cancer as the cause of peoples' symptoms. Over 1,000,000 endoscopies are undertaken each year in the UK but the test is not perfect and sometimes cancer or an abnormality that will turn into cancer is not found. When this happens, the cancer is known as a post-endoscopy upper gastrointestinal cancer (PEUGIC) or a 'missed' cancer. This is unfortunately a relatively common occurrence and 9% of people with UGI cancer in the UK (approximately 1400 per year) had an endoscopy that did not find their cancer in the three years before diagnosis. All people who undergo endoscopy will benefit from this research. Reducing the future number of cancers that are missed at endoscopy in England will be a direct benefit but preventing missed cancers will also help to improve the general quality of endoscopy. The rate of missing cancer at colonoscopy (post-colonoscopy colorectal cancer) has fallen from 9% in 2005 to 6.5% in 2013, unlike the PEUGIC rate that has increased between 2009 and 2018. Research has shown that endoscopists with longer procedure times and those who take more than four pictures during endoscopy have a higher abnormality detection rate for early cancer. In an attempt to help endoscopists, a novel AI called Cerebro has been developed as an endoscopy quality control tool. Cerebro gives the endoscopist real time feedback during an endoscopy, and aids them in the four following areas (Endovision AI 2022) 1. Ensures inspection completeness prompting the endoscopist on which areas have been missed. 2. Calculates the time spent at each landmark ensuring at least a 7-minute examination time. 3. Provides automatic photodocumentation which allows for better reporting 4. Prompts the endoscopist when further insufflation or washing is needed to improve views Variation in endoscopy quality in the UK will contribute to variations in missed cancer frequency and efforts to improve endoscopy quality, including using AI to standardise endoscopy quality, will hopefully reduce the frequency of PEUGIC in future and improve upper GI cancer outcomes. However, in order for AI use in endoscopy to be established its value in improving the quality of views needs studying.
According to the latest global cancer epidemiological data published by the International Agency for Research on Cancer, colorectal cancer (CRC) ranks 3rd in total incidence and 2nd in total mortality among all malignancies worldwide. The prognosis of CRC is directly related to tumor stage. The 5-year survival rate for early CRC can reach 90%, while less than 14% for advanced CRC. Therefore, early diagnosis of CRC is particularly important. Gastrointestinal (GI) endoscopy is an important method in the diagnosis of CRC. Currently, diagnosis of GI endoscopy is mainly based on morphological changes of tumors, while early-stage tumors are difficult to be detected because of the indistinguishable morphology. Studies have shown that the molecular function of cancer cells can be altered in early-stage tumors. The development of a new endoscopic system that can identify early tumor molecular function changes and improve the accuracy of morphological diagnosis will greatly improve the early diagnosis rate of CRC, which is the future direction of GI endoscopic system design and development. The combination of high-definition white light endoscopy, endoscopic cerenkov luminescence imaging (ECLI) and probe-based confocal laser endomicroscopy (pCLE) is ideal for future new GI endoscopy. High-definition white light endoscopy is helpful to quickly find and locate suspected abnormal mucosa; on top of this, ECLI enables molecule-specific functional imaging for accurate identification and determination of GI lesions; and further relies on pCLE for high-precision "cellular-level" lesion images for optical biopsy of lesions. Through the multimodal digestive endoscopy, structural imaging and functional imaging can be accomplished simultaneously, playing the innate advantage of multimodal information fusion diagnosis and facilitating the identification of early-stage tumors. In this clinical trial, twenty patients with colorectal cancer who underwent PET-CT in Xijing Hospital were enrolled. Multimodal digestive endoscopy, combination of high-definition white light endoscopy, ECLI and pCLE, was used to perform for each patient's rectal cancer. ECLI images were compared with PET-CT images, and pCLE images were compared with tumor histopathology, which evaluate the actual imaging effect of multimodal digestive endoscopy in human.
The aim of the study is retrospectively evaluating all features of endoscopic and pathological diagnoses of cases who underwent upper and lower gastrointestinal endoscopy.
Endoscopic submucosal dissection (ESD) is a relatively new modality for the treatment of superficial gastrointestinal neoplasia and especially in the diagnosis and treatment of submucosal tumors. ESD has become a minimal invasive alternative to surgery but requires a high degree of endoscopic skills to be performed safely, it is time consuming, and less safe than endoscopic mucosa resection. New endoscopic instruments have been developed to increase the efficacy and safety of ESD, and a combined endoscopic instrument (HybridKnife) has been developed and evaluated with promising results in animal studies. This HybridKnife allows high-pressure water-jet (submucosal) dissection, as well as cutting and coagulation and makes ESD possible without changing instrument. The purpose of this study is to evaluate the feasibility and safety of using HybridKnife for ESD in humans.
Patients routinely receive sedation during a colonoscopy or upper endoscopy (esophagogastroduodenoscopy; EGD) procedure. Propofol is a sedative that can be used during these procedures. The purpose of this study is to determine if this CAPS device enables a physician/registered nurse (RN) team to safely and effectively administer propofol sedation during colonoscopy or EGD procedures relative to current sedation practices.