Artificial Intelligence-based Segmentation of Residual Pancreatic Cancer in Resection Specimens Following Neoadjuvant Treatment (ISGPP-2): International Improvement and Validation Study.

Authors

Boris V Janssen
Bart Oteman
Mahsoem Ali
Pieter A Valkema
Volkan Adsay
Olca Basturk
Deyali Chatterjee
Angela Chou
Stijn Crobach
Michael Doukas
Paul Drillenburg
Irene Esposito
Anthony J Gill
Seung-Mo Hong
Casper Jansen
Mike Kliffen
Anubhav Mittal
Jas Samra
Marie-Louise F van Velthuysen
Aslihan Yavas
Geert Kazemier
Joanne Verheij
Ewout Steyerberg
Marc G Besselink
Huamin Wang
Caroline Verbeke
Arantza Fariña
Onno J de Boer
Pancreatobiliary and Hepatic Artificial Intelligence Research (PHAIR) consortium
International Study Group of Pancreatic Pathologists (ISGPP);

Publication Date

9-1-2024

Journal

The American Journal of Surgical Pathology

Abstract

Neoadjuvant therapy (NAT) has become routine in patients with borderline resectable pancreatic cancer. Pathologists examine pancreatic cancer resection specimens to evaluate the effect of NAT. However, an automated scoring system to objectively quantify residual pancreatic cancer (RPC) is currently lacking. Herein, we developed and validated the first automated segmentation model using artificial intelligence techniques to objectively quantify RPC. Digitized histopathological tissue slides were included from resected pancreatic cancer specimens from 14 centers in 7 countries in Europe, North America, Australia, and Asia. Four different scanner types were used: Philips (56%), Hamamatsu (27%), 3DHistech (10%), and Leica (7%). Regions of interest were annotated and classified as cancer, non-neoplastic pancreatic ducts, and others. A U-Net model was trained to detect RPC. Validation consisted of by-scanner internal-external cross-validation. Overall, 528 unique hematoxylin and eosin (H & E) slides from 528 patients were included. In the individual Philips, Hamamatsu, 3DHistech, and Leica scanner cross-validations, mean F1 scores of 0.81 (95% CI, 0.77-0.84), 0.80 (0.78-0.83), 0.76 (0.65-0.78), and 0.71 (0.65-0.78) were achieved, respectively. In the meta-analysis of the cross-validations, the mean F1 score was 0.78 (0.71-0.84). A final model was trained on the entire data set. This ISGPP model is the first segmentation model using artificial intelligence techniques to objectively quantify RPC following NAT. The internally-externally cross-validated model in this study demonstrated robust performance in detecting RPC in specimens. The ISGPP model, now made publically available, enables automated RPC segmentation and forms the basis for objective NAT response evaluation in pancreatic cancer.

Keywords

Humans, Pancreatic Neoplasms, Neoadjuvant Therapy, Neoplasm, Residual, Reproducibility of Results, Pancreatectomy, Artificial Intelligence, Image Interpretation, Computer-Assisted, Predictive Value of Tests, Female, Male, pancreatic cancer, histopathology, tumor response scoring, neoadjuvant therapy, artificial intelligence, machine learning

Comments

PMID: 38985503