Towards automatizing detection and quantification of intestinal metaplasia: a multi-expert comparative study

Current gastric cancer risk systems are prone to errors since they evaluate a visual estimation of intestinal metaplasia percentages to assign a risk. This study presents an automated method to detect and quantify intestinal metaplasia using deep learning models as well as a comparative analysis with visual estimations of three experienced pathologists. Gastric samples were collected from two different cohorts: 149 asymptomatic volunteers from a region with a high prevalence of GCa in Colombia and 56 patients from a third-level hospital. Deep learning models were selected and trained to classify intestinal metaplasia, and predictions were used to estimate the percentage of intestinal metaplasia and assign the risk score. Results were compared with independent blinded assessments performed by three experienced pathologists. The best-performing deep learning architecture classified intestinal metaplasia with F1-Score of 0.80 +- 0.01 and AUC of 0.91 +- 0.01. Among pathologists, inter-observer agreement by a Fleiss's Kappa score ranged from 0.61 to 0.75. In comparison, agreement between the pathologists and the best-performing model ranged from 0.37 to 0.54. Deep learning models show potential to detect and quantify the percentage of intestinal metaplasia with greater precision and reproducibility than experienced pathologists. Likewise, estimated risk shows high inter-observer variability when visually assigning the intestinal metaplasia percentage.