Machine learning can aid in prediction of IDH mutation from H&E-stained histology slides in infiltrating gliomas. Academic Article uri icon

Overview

abstract

  • While Machine Learning (ML) models have been increasingly applied to a range of histopathology tasks, there has been little emphasis on characterizing these models and contrasting them with human experts. We present a detailed empirical analysis comparing expert neuropathologists and ML models at predicting IDH mutation status in H&E-stained histology slides of infiltrating gliomas, both independently and synergistically. We find that errors made by neuropathologists and ML models trained using the TCGA dataset are distinct, representing modest agreement between predictions (human-vs.-human κ = 0.656; human-vs.-ML model κ = 0.598). While no ML model surpassed human performance on an independent institutional test dataset (human AUC = 0.901, max ML AUC = 0.881), a hybrid model aggregating human and ML predictions demonstrates predictive performance comparable to the consensus of two expert neuropathologists (hybrid classifier AUC = 0.921 vs. two-neuropathologist consensus AUC = 0.920). We also show that models trained at different levels of magnification exhibit different types of errors, supporting the value of aggregation across spatial scales in the ML approach. Finally, we present a detailed interpretation of our multi-scale ML ensemble model which reveals that predictions are driven by human-identifiable features at the patch-level.

publication date

  • December 31, 2022

Research

keywords

  • Brain Neoplasms
  • Glioma

Identity

PubMed Central ID

  • PMC9805452

Scopus Document Identifier

  • 85145378021

Digital Object Identifier (DOI)

  • 10.1093/bioinformatics/btw313

PubMed ID

  • 36587030

Additional Document Info

volume

  • 12

issue

  • 1