Prospective development and validation of a volumetric laser endomicroscopy computer algorithm for detection of Barrett’s neoplasia

Volumetric laser endomicroscopy (VLE) is an advanced imaging modality used to detect Barrett’s esophagus (BE) dysplasia. However, real-time interpretation of VLE scans is complex and time-consuming. Computer-aided detection (CAD) may help in the process of VLE image interpretation. Our aim was to tr...

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Vydáno v:Gastrointestinal endoscopy Ročník 93; číslo 4; s. 871 - 879
Hlavní autoři: Struyvenberg, Maarten R., de Groof, Albert J., Fonollà, Roger, van der Sommen, Fons, de With, Peter H.N., Schoon, Erik J., Weusten, Bas L.A.M., Leggett, Cadman L., Kahn, Allon, Trindade, Arvind J., Ganguly, Eric K., Konda, Vani J.A., Lightdale, Charles J., Pleskow, Douglas K., Sethi, Amrita, Smith, Michael S., Wallace, Michael B., Wolfsen, Herbert C., Tearney, Gary J., Meijer, Sybren L., Vieth, Michael, Pouw, Roos E., Curvers, Wouter L., Bergman, Jacques J.
Médium: Journal Article
Jazyk:angličtina
Vydáno: United States Elsevier Inc 01.04.2021
Témata:
BE
CI
CAD
IQR
NDBE
ROI
VLE
ISSN:0016-5107, 1097-6779, 1097-6779
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Shrnutí:Volumetric laser endomicroscopy (VLE) is an advanced imaging modality used to detect Barrett’s esophagus (BE) dysplasia. However, real-time interpretation of VLE scans is complex and time-consuming. Computer-aided detection (CAD) may help in the process of VLE image interpretation. Our aim was to train and validate a CAD algorithm for VLE-based detection of BE neoplasia. The multicenter, VLE PREDICT study, prospectively enrolled 47 patients with BE. In total, 229 nondysplastic BE and 89 neoplastic (high-grade dysplasia/esophageal adenocarcinoma) targets were laser marked under VLE guidance and subsequently underwent a biopsy for histologic diagnosis. Deep convolutional neural networks were used to construct a CAD algorithm for differentiation between nondysplastic and neoplastic BE tissue. The CAD algorithm was trained on a set consisting of the first 22 patients (134 nondysplastic BE and 38 neoplastic targets) and validated on a separate test set from patients 23 to 47 (95 nondysplastic BE and 51 neoplastic targets). The performance of the algorithm was benchmarked against the performance of 10 VLE experts. Using the training set to construct the algorithm resulted in an accuracy of 92%, sensitivity of 95%, and specificity of 92%. When performance was assessed on the test set, accuracy, sensitivity, and specificity were 85%, 91%, and 82%, respectively. The algorithm outperformed all 10 VLE experts, who demonstrated an overall accuracy of 77%, sensitivity of 70%, and specificity of 81%. We developed, validated, and benchmarked a VLE CAD algorithm for detection of BE neoplasia using prospectively collected and biopsy-correlated VLE targets. The algorithm detected neoplasia with high accuracy and outperformed 10 VLE experts. (The Netherlands National Trials Registry (NTR) number: NTR 6728.)
Bibliografie:ObjectType-Article-1
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ISSN:0016-5107
1097-6779
1097-6779
DOI:10.1016/j.gie.2020.07.052