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DOI: 10.1055/a-1640-8624
Non-granular laterally spreading tumors: potential superficial cancers that artificial intelligence does not easily detect
Artificial intelligence (AI) and especially deep learning have recently shown promising results in various medical fields involving endoscopic images [1] [2]. However, as AI becomes more and more powerful, we must remain careful and attentive in detection. We showed recently in a case report that a real-time computer-aided detection system (CADe) may have difficulties in detecting flat colorectal sessile serrated adenomas/polyps (SSA/Ps) [3]. Among the difficult lesions to detect, non-granular laterally spreading tumors (LST-NGs) represent a challenge because, in addition to their flat macroscopic form, which is difficult to identify, they are associated with advanced histology, with 27 % of invasive cancers being found in the elevated non-granular forms and 47 % in the pseudodepressed ones [4]. It is therefore a major challenge for diagnostic endoscopy that these are not missed, as they are potential interval cancers that will have become advanced by the next surveillance colonoscopy 3 or 5 years later.
We therefore aimed to assess the efficiency of a recent CADe system to identify LST-NGs, using the ENDO-AID software in combination with the EVIS X1 video column (Olympus, Tokyo, Japan).
We herein report three patients with LST-NG lesions measuring more than 4 cm each that were not correctly detected by CADe ([Video 1]). Because of their less visible edges, it seems that the tested CADe system is sometimes not sufficiently efficient in identifying the flat shape of these lesions, resulting in incomplete detections and false positives ([Fig. 1]).
Video 1 Endoscopic diagnosis of non-granular laterally spreading tumors (LST-NGs) that were not correctly identified by the CADe system.
Qualität:
These cases illustrate that potential superficial cancers, such as LST-NGs or SSA/Ps, can still be hard to detect, even with a recently developed CADe system. Deep learning algorithms have to be trained further to detect these rare lesions, which can in practice be hard to detect with the human eye, and for which CADe assistance would be extremely valuable.
Endoscopy_UCTN_Code_CCL_1AD_2AB
Endoscopy E-Videos is an open access online section, reporting on interesting cases and new techniques in gastroenterological endoscopy. All papers include a high quality video and all contributions are freely accessible online. Processing charges apply (currently EUR 375), discounts and wavers acc. to HINARI are available.
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Publikationsverlauf
Artikel online veröffentlicht:
08. Oktober 2021
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References
- 1 Aoki T, Yamada A, Aoyama K. et al. Automatic detection of erosions and ulcerations in wireless capsule endoscopy images based on a deep convolutional neural network. Gastrointest Endosc 2019; 89: 357-363.e2
- 2 de Groof AJ, Struyvenberg MR, Fockens KN. et al. Deep learning algorithm detection of Barrett’s neoplasia with high accuracy during live endoscopic procedures: a pilot study (with video). Gastrointest Endosc 2020; 91: 1242-1250
- 3 Lafeuille P, Lambin T, Yzet C. et al. Flat colorectal sessile serrated polyp: an example of what artificial intelligence does not easily detect. Endoscopy 2021; DOI: 10.1055/a-1486-6220.
- 4 Yamada M, Saito Y, Sakamoto T. et al. Endoscopic predictors of deep submucosal invasion in colorectal laterally spreading tumors. Endoscopy 2016; 48: 456-464