1055/a-2661-2624 Adenoma detection rate (ADR) correlates with the rate of post-colonoscopy colorectal cancer (PCCRC) and the rate of PPCRC-related death 1 . This is probably because ADR represents a measure of the meticulousness and comprehensiveness of mucosal inspection 2 ; however, the value of detecting additional diminutive adenomas within the visual field, which current artificial intelligence (AI) systems improve, is unclear. This may decouple ADR from PCCRC, reducing its utility as a key performance indicator, and allows potential gaming 3 . A recent paper reported that endoscopists may be deskilled by using AI-supported computer-aided detection (CADe), with the ADR dropping from 28.4% before AI exposure to 22.4% by 3 months after CADe exposure 4 . Okumura et al. report in Endoscopy that improvements in ADR with AI-supported CADe continued over a 3-year period when endoscopists, particularly those who were high performing, were not using CADe, suggesting deskilling may be less of an issue with continuous exposure to AI, at least in a Japanese context 5 . The groups in the Okumura study were well matched; however, while ADR was improved and maintained with or without CADe, it was striking that the detection rates of adenomas of 6–9 mm, ≥10 mm, and with high grade dysplasia, and invasive cancer were significantly higher in the non-CADe group ( Fig. 1 , extracted from table 2s in the paper of Okumura et al.). An alternative interpretation of this study is that CADe distracts endoscopists by encouraging them to focus on the detection of trivial lesions (adenomas of 1–5 mm and hyperplastic polyps) at the expense of more critical advanced lesions. The rate of invasive cancer in the non-CADe group was more than double the rate in the CADe group ( P = 0.001). The consistency of effect direction among ≥10-mm adenomas, high grade adenomas, and invasive cancer, with very low P values, argues against a chance effect for advanced lesion detection. It is not yet clear that an AI-supported ADR leads to a reduction in PCCRC, and in fact these data would suggest the opposite might be true. Article published online: 20 February 2026 © 2026. Thieme. All rights reserved. Georg Thieme Verlag KG Oswald-Hesse-Straße 50, 70469 Stuttgart, Germany
Henry et al. (Fri,) studied this question.