Screening of normal endoscopic large bowel biopsies with interpretable graph learning: a retrospective study

Simon Graham; Fayyaz Minhas; Mohsin Bilal; Mahmoud Ali; Yee Wah Tsang; Mark Eastwood; Noorul Wahab; Mostafa Jahanifar; Emily Hero; Katherine Dodd; Harvir Sahota; Shaobin Wu; Wenqi Lu; Ayesha Azam; Ksenija Benes; Mohammed Nimir; Katherine Hewitt; Abhir Bhalerao; Andrew Robinson; Hesham Eldaly; Shan E Ahmed Raza; Kishore Gopalakrishnan; David Snead; Nasir Rajpoot

doi:10.1136/gutjnl-2023-329512

Screening of normal endoscopic large bowel biopsies with interpretable graph learning: a retrospective study

Gut. 2023 Sep;72(9):1709-1721. doi: 10.1136/gutjnl-2023-329512. Epub 2023 May 12.

Authors

Simon Graham^{1

2}, Fayyaz Minhas³, Mohsin Bilal³, Mahmoud Ali⁴, Yee Wah Tsang⁴, Mark Eastwood³, Noorul Wahab³, Mostafa Jahanifar³, Emily Hero⁵, Katherine Dodd⁴, Harvir Sahota⁴, Shaobin Wu⁶, Wenqi Lu³, Ayesha Azam⁴, Ksenija Benes^{4

7}, Mohammed Nimir⁴, Katherine Hewitt⁴, Abhir Bhalerao³, Andrew Robinson⁴, Hesham Eldaly⁴, Shan E Ahmed Raza³, Kishore Gopalakrishnan⁴, David Snead^{2

4

8}, Nasir Rajpoot^{1

2

4}

Affiliations

¹ Department of Computer Science, University of Warwick, Coventry, UK n.m.rajpoot@warwick.ac.uk simon.graham@warwick.ac.uk.
² Histofy Ltd, Birmingham, UK.
³ Department of Computer Science, University of Warwick, Coventry, UK.
⁴ Department of Pathology, University Hospitals Coventry and Warwickshire NHS Trust, Coventry, UK.
⁵ Department of Pathology, University Hospitals of Leicester NHS Trust, Leicester, UK.
⁶ Department of Pathology, East Suffolk and North Essex NHS Foundation Trust, Colchester, UK.
⁷ Department of Pathology, Royal Wolverhampton Hospitals NHS Trust, Wolverhampton, UK.
⁸ Division of Biomedical Sciences, University of Warwick Warwick Medical School, Coventry, UK.

Abstract

Objective: To develop an interpretable artificial intelligence algorithm to rule out normal large bowel endoscopic biopsies, saving pathologist resources and helping with early diagnosis.

Design: A graph neural network was developed incorporating pathologist domain knowledge to classify 6591 whole-slides images (WSIs) of endoscopic large bowel biopsies from 3291 patients (approximately 54% female, 46% male) as normal or abnormal (non-neoplastic and neoplastic) using clinically driven interpretable features. One UK National Health Service (NHS) site was used for model training and internal validation. External validation was conducted on data from two other NHS sites and one Portuguese site.

Results: Model training and internal validation were performed on 5054 WSIs of 2080 patients resulting in an area under the curve-receiver operating characteristic (AUC-ROC) of 0.98 (SD=0.004) and AUC-precision-recall (PR) of 0.98 (SD=0.003). The performance of the model, named Interpretable Gland-Graphs using a Neural Aggregator (IGUANA), was consistent in testing over 1537 WSIs of 1211 patients from three independent external datasets with mean AUC-ROC=0.97 (SD=0.007) and AUC-PR=0.97 (SD=0.005). At a high sensitivity threshold of 99%, the proposed model can reduce the number of normal slides to be reviewed by a pathologist by approximately 55%. IGUANA also provides an explainable output highlighting potential abnormalities in a WSI in the form of a heatmap as well as numerical values associating the model prediction with various histological features.

Conclusion: The model achieved consistently high accuracy showing its potential in optimising increasingly scarce pathologist resources. Explainable predictions can guide pathologists in their diagnostic decision-making and help boost their confidence in the algorithm, paving the way for its future clinical adoption.

Keywords: colonic adenomas; colonic diseases; colorectal cancer screening; endoscopy.

Publication types

Research Support, Non-U.S. Gov't

MeSH terms

Algorithms
Artificial Intelligence*
Biopsy
Female
Humans
Male
Retrospective Studies
State Medicine*