Clinical Trials Logo

Clinical Trial Summary

Even if colonoscopy is considered the reference standard for the detection of colonic neoplasia, polyps are still missed. The risk of early post-colonoscopy cancer appeared to be independently predicted by a relatively low polyp/adenoma detection rate. When considering the very high prevalence of advanced neoplasia in the FIT-positive enriched population, the risk of post-colonoscopy interval cancer due to a suboptimal quality of colonoscopy may be substantial. Available evidence justifies therefore the implementation of efforts aimed at improving adenoma detection rate, based on retraining interventions and on the adoption of innovative technologies, designed to enhance the accuracy of the endoscopic examination. Artificial intelligence seems to improve the quality of medical diagnosis and treatment. In the field of gastrointestinal endoscopy, two potential roles of AI in colonoscopy have been examined so far: automated polyp detection (CADe) and automated polyp histology characterization (CADx). CADe can minimize the probability of missing a polyp during colonoscopy, thereby improving the adenoma detection rate (ADR) and potentially decreasing the incidence of interval cancer. GI Genius is the AI software that will be used in the present trial and is intended to be used as an adjunct to colonic endoscopy procedures to help endoscopists to detect in real time mucosal lesions (such as polyps and adenomas, including those with flat (non-polypoid) morphology) during standard screening and surveillance endoscopic mucosal evaluations. It is not intended to replace histopathological sampling as a means of diagnosis. The objective of this study was to compare the diagnostic yield obtained by using CADe colonoscopy to the yield obtained by the standard colonoscopy (SC).


Clinical Trial Description

Even if colonoscopy is considered the reference standard for the detection of colonic neoplasia, polyps are still missed. In large administrative cohort or case-control studies, the risk of early post-colonoscopy cancer appeared to be independently predicted by a relatively low polyp/adenoma detection rate. The adenoma detection rate among different endoscopists has been shown to be strictly related with the risk of post-colonoscopy interval cancer. When considering the very high prevalence of advanced neoplasia in the FIT-positive enriched population, the risk of post-colonoscopy interval cancer due to a suboptimal quality of colonoscopy may be substantial. Available evidence justifies therefore the implementation of efforts aimed at improving adenoma detection rate, based on retraining interventions and on the adoption of innovative technologies, designed to enhance the accuracy of the endoscopic examination.Nowadays, Artificial intelligence (AI) is gaining increased attention and investigation, since it seems to improve the quality of medical diagnosis and treatment. In the field of gastrointestinal endoscopy, two potential roles of AI in colonoscopy have been examined so far: automated polyp detection (CADe) and automated polyp histology characterization (CADx). CADe can minimize the probability of missing a polyp during colonoscopy, thereby improving the adenoma detection rate (ADR) and potentially decreasing the incidence of interval cancer. GI Genius is the AI software that will be used in the present trial. The software is developed by Medtronic Inc. (Dublin, Ireland) and is intended to be used as an adjunct to colonic endoscopy procedures to help endoscopists to detect in real time mucosal lesions (such as polyps and adenomas, including those with flat (non-polypoid) morphology) during standard screening and surveillance endoscopic mucosal evaluations. It is not intended to replace histopathological sampling as a means of diagnosis. The objective of this study was to compare the diagnostic yield obtained by using CADe colonoscopy to the yield obtained by the standard colonoscopy (SC). As the risk of progression is higher for large than for small adenomas the specific contribution of the new technique in reducing the miss rate of large neoplasms represents an important outcome to be assessed in the study. In addition, given the suggested association of a higher miss-rate of serrated and flat lesions with an increased risk of early post-colonoscopy CRC, the benefit of the new technique in reducing the miss rate of these lesions will be assessed. ;


Study Design


Related Conditions & MeSH terms


NCT number NCT04441580
Study type Interventional
Source Fondazione Poliambulanza Istituto Ospedaliero
Contact Sebastian Manuel Milluzzo, MD
Phone +39 0303515373
Email sebastian.m.milluzzo@gmail.com
Status Recruiting
Phase N/A
Start date May 4, 2020
Completion date April 30, 2024

See also
  Status Clinical Trial Phase
Completed NCT02537340 - PET/MR for Staging Rectal Cancer Patients With and Without EMVI-MR
Recruiting NCT02565667 - A Prospective Clinical Study for Transanal Double Purse-string Rectal Anastomosis Preformed With KOL Stapler N/A
Terminated NCT02538913 - Exercise Training for Rectal Cancer Patients N/A
Not yet recruiting NCT02439086 - Prediction of Response to Neoadjuvant Therapy in Rectal Cancer N/A
Completed NCT02233374 - Predicting RadIotherapy ReSponse of Rectal Cancer With MRI and PET N/A
Completed NCT00535652 - Concentration of Ertapenem in Colorectal Tissue Phase 4
Completed NCT00535041 - Pilot Trial of Pre-operative Chemo/RT Using Xeloda and External Beam RT Followed by Definite Surgery in Patients With Localized Rectal CA N/A
Recruiting NCT04949646 - Intraoperative Neuromonitoring of Pelvic Autonomous Nerve Plexus During Total Mesorectal Excision N/A
Recruiting NCT04095468 - Organ-preserving Management in Patients With Complete or Near-complete Tumour Response After Preoperative Radio(Chemo)Therapy for Rectal Cancer
Recruiting NCT06017583 - Neoadjuvant Chemotherapy With PD-1 Inhibitors Combined With SIB-IMRT in the Treatment of Locally Advanced Rectal Cancer Phase 3
Recruiting NCT05689775 - Reconstruction After Abdominoperineal Resection With Robot-assisted Harvest of VRAM Flap
Recruiting NCT04006951 - Development of a Clinical and Biological Database in Rectum Cancer N/A
Recruiting NCT05068180 - Low-dose Neuroleptanalgesia for Postoperative Delirium in Elderly Patients Phase 4
Recruiting NCT03714490 - MRI Simulation-guided Boost in Short-course Preoperative Radiotherapy for Unresectable Rectal Cancer Phase 2
Recruiting NCT03325361 - The Role of Transanal Tube Drainage as A Mean of Prevention of Anastomotic Leakage Anastomotic Leakage N/A
Completed NCT02252250 - Transanal Total Mesorectal Excision Versus Laparoscopic TME for Rectal Cancer N/A
Completed NCT04455737 - Ex Vivo Intra-arterial Indigo Carmine Injection After Transanal Total Mesorectal Excision
Completed NCT01816607 - Functional MRI of Hypoxia-mediated Rectal Cancer Aggressiveness
Completed NCT01721785 - Diagnostic Value of Novel MR Imaging Techniques for the Primary Staging and Restaging of Rectal Cancer N/A
Active, not recruiting NCT01171300 - Assessment of Response Before, During and After Neoadjuvant Chemoradiotherapy in Rectal Cancer Patients N/A