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Integrating morphologic and molecular histopathological features through whole slide image registration and deep learning

Kevin Faust, Michael Kyung Ik Lee, Anglin Dent, Clare Fiala, Alessia Portante, Madhumitha Rabindranath, Noor Alsafwani, Andrew Gao, Ugljesa Djuric, Phedias Diamandis

2022Neuro-Oncology Advances16 citationsDOIOpen Access PDF

Abstract

BACKGROUND: Modern molecular pathology workflows in neuro-oncology heavily rely on the integration of morphologic and immunohistochemical patterns for analysis, classification, and prognostication. However, despite the recent emergence of digital pathology platforms and artificial intelligence-driven computational image analysis tools, automating the integration of histomorphologic information found across these multiple studies is challenged by large files sizes of whole slide images (WSIs) and shifts/rotations in tissue sections introduced during slide preparation. METHODS: To address this, we develop a workflow that couples different computer vision tools including scale-invariant feature transform (SIFT) and deep learning to efficiently align and integrate histopathological information found across multiple independent studies. We highlight the utility and automation potential of this workflow in the molecular subclassification and discovery of previously unappreciated spatial patterns in diffuse gliomas. RESULTS: First, we show how a SIFT-driven computer vision workflow was effective at automated WSI alignment in a cohort of 107 randomly selected surgical neuropathology cases (97/107 (91%) showing appropriate matches, AUC = 0.96). This alignment allows our AI-driven diagnostic workflow to not only differentiate different brain tumor types, but also integrate and carry out molecular subclassification of diffuse gliomas using relevant immunohistochemical biomarkers (IDH1-R132H, ATRX). To highlight the discovery potential of this workflow, we also examined spatial distributions of tumors showing heterogenous expression of the proliferation marker MIB1 and Olig2. This analysis helped uncover an interesting and unappreciated association of Olig2 positive and proliferative areas in some gliomas (r = 0.62). CONCLUSION: This efficient neuropathologist-inspired workflow provides a generalizable approach to help automate a variety of advanced immunohistochemically compatible diagnostic and discovery exercises in surgical neuropathology and neuro-oncology.

Topics & Concepts

WorkflowDigital pathologyScale-invariant feature transformComputer scienceArtificial intelligenceATRXPathologyPipeline (software)Deep learningPattern recognition (psychology)Feature extractionBiologyMedicineDatabaseGeneProgramming languageMutationBiochemistryAI in cancer detectionCell Image Analysis TechniquesGlioma Diagnosis and Treatment
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