Endoscopy 2022; 54(S 01): S38-S39
DOI: 10.1055/s-0042-1744638
Abstracts | ESGE Days 2022
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COMPUTER AIDED DIAGNOSIS FOR THE CHARACTERISATION OF DYSPLASIA IN BARRETT’S ESOPHAGUS WITH MAGNIFICATION ENDOSCOPY ON I-SCAN IMAGING

M. Hussein
1   University College London, London, United Kingdom
2   University College London Hospital, London, United Kingdom
,
D. Lines
3   Odin Vision, London, United Kingdom
,
J. González-Bueno Puyal
3   Odin Vision, London, United Kingdom
1   University College London, London, United Kingdom
,
N. Bowman
1   University College London, London, United Kingdom
,
V. Sehgal
2   University College London Hospital, London, United Kingdom
,
D. Toth
3   Odin Vision, London, United Kingdom
,
M. Everson
1   University College London, London, United Kingdom
,
O. Ahmad
1   University College London, London, United Kingdom
,
R. Kader
1   University College London, London, United Kingdom
,
J.M. Esteban
4   Clínico San Carlos, Madrid, Spain
,
R. Bischopps
5   UZ Leuven, Leuven, Belgium
,
M. Banks
2   University College London Hospital, London, United Kingdom
,
M. Haefner
6   St Elisabeth hospital, Vienna, Austria
,
P. Mountney
3   Odin Vision, London, United Kingdom
,
D. Stoyanov
1   University College London, London, United Kingdom
,
L. Lovat
1   University College London, London, United Kingdom
,
R. Haidry
2   University College London Hospital, London, United Kingdom
1   University College London, London, United Kingdom
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    Aims We aimed to develop a computer aided detection system that can support the diagnosis of Barrett's oesophagus (BE) dysplasia on magnification endoscopy.

    Methods Videos were collected in high-definition magnification white light and virtual chromoendoscopy with i-scan (Pentax Hoya, Japan) imaging in patients with dysplastic/ non-dysplastic BE (NDBE) from 4 centres. We trained a neural network with a Resnet101 architecture to classify frames.

    The network was tested – on high quality still images, all available frames and on a selected sequence within each video.

    Results 57 different patients each with videos of magnification areas of BE (34 dysplasia, 23 NDBE) were included. Performance was evaluated using a leave-one-out cross-validation methodology. 60,174 (39,347 dysplasia, 29,827 NDBE) magnification video frames were used to train the network. The testing set included 49,726 iscan-3/optical enhancement magnification frames.

    On 350 high quality images the network achieved a sensitivity of 94%, specificity of 86% and Area under the ROC (AUROC) of 96%.

    On all 49,726 frames the network achieved a sensitivity of 92%, specificity of 82% and AUROC of 95%.

    On a selected sequence of frames per case (Total of 11,471 frames) we used an exponentially weighted moving average of consecutive frames to diagnose dysplasia. The network achieved a sensitivity of 90%, specificity of 82% and AUROC of 94% ([Figure 1])

    Zoom Image
    Fig. 1

    The mean assessment speed per frame was 0.0135 seconds (SD, + 0.006)

    Conclusions Our network can characterise BE dysplasia with high accuracy and speed on high-quality magnification images and sequence of video frames moving it towards real time automated diagnosis.


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    Publication History

    Article published online:
    14 April 2022

    © 2022. European Society of Gastrointestinal Endoscopy. All rights reserved.

    Georg Thieme Verlag KG
    Rüdigerstraße 14, 70469 Stuttgart, Germany

     
    Zoom Image
    Fig. 1