View clinical trials related to Colonic Polyps.
Filter by:Colonoscopy is the standard of care for the detection of colorectal polyps and adenoma, and colorectal cancer detection. Despite a meticulous evaluation of the colonic mucosa during colonoscopy, a substantial number of colorectal polyps might be missed and colorectal cancer might not be prevented. Previous studies described a 12-28% of miss-rate for all polyps, a 31% for hyperplastic polyps and 6-27% for adenomas, with a higher miss rate noted for smaller polyps. The lesion missing rate depends on several factors, such as the location on difficult areas to be evaluated with conventional colonoscopes (the proximal side of the ileocecal valve, haustral folds, flexures or rectal valves), a flat shape, an inadequate bowel preparation and inadequate endoscopy technique, a time-limited colonoscope withdrawal. If the standard 140º angle of view colonoscope is used approximately 13% of the colonic surface is unevaluated. The incorporation of colonoscopes with a 170-degree wide angled could improve adenoma detection rate. The introduction of high definition (HD) colonoscopes and visual image enhancement technologies, such as narrow band imaging (NBI, Olympus America, Center Valley, PA), I-SCAN™ (Pentax Medical, Montvale, NJ) and Fuji Intelligent Chromo-Endoscopy (FICE™, Fujinon Endoscopy, Wayne, NJ) have improved the lesion characterization; however, several studies have failed to prove an increase in the adenoma detection rates. The Third Eye Retroscope (Avantis Medical Systems, Sunnyvale, CA) is a disposable retrograde viewing device advanced through the accessory channel of a standard colonoscope. It allows retrograde viewing behind colonic folds and flexures simultaneously with the forward view of the colon. Although it shows an increase in the adenoma detection rate by 11%-25%, it has many disadvantages. First, it requires a separate processor and the device is disposable, increasing the cost of the procedure. Second, it occupies the working channel of the colonoscope, limiting the ability to suction. Third, if a polyp is detected, the viewing device has to be removed in order to perform the polypectomy. Fourth, the optic is not high definition and finally, the endoscopist has to get used to visualizing and processing two simultaneous video streams from the colonoscopy and from the retroscope device.
The purpose of this randomized study is to compare ESD procedural time and cost facilitated with a dual balloon accessory device versus ESD procedures performed without the accessory device. Study is designed to detect if the double balloon interventional platform helps to perform removal of benign complex colonic lesions safer and in more efficient way.
The primary aim of this study is - to explore the usefulness of Artificial Intelligence system in colonoscopy on adenoma detection rate (ADR). Other aims include to explore the data below when Artificial Intelligence is used. Mean adenomas detected per procedure, MAP Proximal Adenoma detection rate, pADR Polyp detection rate, PDR Proximal polyp detection rate, pPDR Mean polyps detected per procedure, MPP Withdrawal time, WT Cecal intubation rate, CIR Cecal intubation time, CIT
This clinical trial is being conducted to compare the efficacy and safety of two standard methods of polypectomy,Conventional Endoscopic Mucosal Resection(EMR)and Underwater Endoscopic Mucosal Resection(UEMR),for small colorectal polyps.
Colonoscopy is the technique of choice for the diagnosis and prevention of colorectal cancer (CRC). The identification and extirpation of adenomas decreases the incidence of CRC by up to 76%. More than 70% of the excised lesions are less than 10 mm. There is controversy about the technique to be used (resection with cold vs hot snare) in lesions of 5-9mm. Both use a polypectomy snare. The cold snare cuts by friction, while the hot snare uses electrical current. We propose a multicenter randomized clinical trial comparing both endoscopic techniques. At least 394 injuries per group will be included, randomizing patients to whom a diagnostic colonoscopy is requested for symptoms, screening or revision protocols. Randomization will be performed stratified by center. The primary objective is the proportion of incomplete polypectomies, which will be analyzed centrally from random biopsies of the edges of the lesion. As secondary objectives, we will compare the proportion of immediate and delayed hemorrhagic complications, the evolution of postprocedural abdominal pain and the factors associated with incomplete excision in each group and the factors associated with a failed cold polypectomy. The analysis of the primary objective will be carried out by means of the z test of homogeneity without using the correction of Yates, estimating the confidence interval of the difference between both groups. The analysis will be carried out by intention to treat and per protocol.
The goal of this study is to evaluate the interest of second-generation Endocuff Vision (ECV) to improve Adenoma detection rate and / or Polyp detection rate in routine colonoscopy. This is a prospective comparative cohort, on 1034 patients, 517 patients with ECV in prospective group and 517 without ECV in retrospective group
Several imaging technologies have been developed in order to enable the endoscopists to differentiate neoplastic from non-neoplastic lesions. The real-time prediction of polyps histology is clinically relevant as diminutive polyps represent the majority of polyps detected during colonoscopy and have a very low risk of harboring advanced histology or invasive carcinoma. Thus, an optical diagnosis would allow diminutive polyps to be resected and discarded without pathological assessment or left in place without resection, with an enormous cost-saving potential. Recently, the American Society of Gastrointestinal Endoscopy (ASGE) has set the Preservation and Incorporation of Valuable endoscopic Innovation (PIVI) which defined accuracy threshold to be met, in order to consider a new technology ready to be incorporate into clinical practice. Blue Light Imaging (BLI) is a new chromoendoscopy technology integrated in the latest generation ELUXEOTM 7000 endoscopy platform (Fujifilm Co, Tokyo, Japan), based on the direct (i.e. not filtered) emission of blue light with short wavelength (410nm), that enhances visibility of both microvascular and superficial mucosal pattern. In a recent randomized trial BLI was superior to high-definition white light (HDWL) in the real time characterization of subcentimetric and diminutive colonic polyps. Nevertheless, in this study the paucity of diminutive rectosigmoid polyps analyzed does not allow to draw definite conclusions as the meeting of PIVI thresholds are concerned. Similarly, the low numbers of patients evaluated limited the per-patient analysis. Therefore further studies adequately powered to this clinically end-point were advocated. Additionally, when the study was performed a BLI dedicated classification for optical diagnosis of colonic polyps was not available, whereas recently a specific classification (the BLI Adenoma Serrated International Classification-BASIC) has been developed and a specific training set has been settled. In the present study the investigators prospectively evaluate whether the use of BLI-assisted optical characterization of diminutive polyps using BASIC classification by specifically trained endoscopists may met PIVI thresholds and particularly if it allow the endoscopists to achieve > 90% correct assignment of post-polypectomy surveillance intervals when combined with the histopathology assessment of polyps >5 mm in size.
Linked color imaging (LCI) is newly developed image-enhancing endoscopy technology that differentiates the red color spectrum more effectively than white light imaging thanks to its optimal pre-process composition of light spectrum and advanced signal processing. This technology, combined in the latest generation Fujifilm's endoscopes (Fujifilm Co, Tokyo, Japan) with new high-performance LED illumination system, enhances the visibility of colonic mucosal vessels and might increase the detection rate of colorectal polyps. Data available regarding colorectal polyp or adenoma detection with LCI are encouraging but are scanty and limited to back-to back studies. This two parallel arms, randomized, multicenter trial is aimed at evaluating whether LCI is superior to WL endoscopy in terms of adenoma detection
Freenome is using a type of artificial intelligence, called machine learning, to identify patterns of cell-free biomarkers in blood to detect cancer early. The purpose of this study is to develop and validate a blood-based assay to detect colorectal cancer by collecting blood and stool samples from healthy patients undergoing routine screening colonoscopy and from patients recently diagnosed with colorectal cancer or advanced adenomas.
This prospective randomized clinical trial aims to evaluate the new Optivista system compared to the iScan for his optical diagnosis and interval agreement monitoring with pathology. The Participants will be randomized to be diagnosed by either Optivista or Pentax iScan, and all polyps detected during the procedure, their size, location and morphology will be recorded according to the Paris classification after which all polyps will be resected per standard practices and sent for histopathologic evaluation. Further optical assessments will be performed for all polyps of 1-10 mm in size (WASP, NICE, SANO and SIMPLE classification) after with an analysis of comparison between optical diagnosis and pathology results will be performed.