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Artificial Intelligence-Driven Morphology-Based Enrichment of Malignant Cells from Body Fluid

Anastasia Mavropoulos, Chassidy Johnson, Vivian Lu, Jordan Nieto, Emilie C. Schneider, Kiran Saini, Michael L. Phelan, Linda Hsie, Maggie J. Wang, Janifer Cruz, Jeanette Mei, Julie Kim, Zhouyang Lian, Nianzhen Li, Stéphane C. Boutet, Amy Wong-Thai, Weibo Yu, Qing‐Yi Lu, Teresa Kim, Yipeng Geng, Maddison Masaeli, Thomas D. Lee, Jianyu Rao

2023Modern Pathology30 citationsDOIOpen Access PDF

Abstract

Cell morphology is a fundamental feature used to evaluate patient specimens in pathologic analysis. However, traditional cytopathology analysis of patient effusion samples is limited by low tumor cell abundance coupled with the high background of nonmalignant cells, restricting the ability of downstream molecular and functional analyses to identify actionable therapeutic targets. We applied the Deepcell platform that combines microfluidic sorting, brightfield imaging, and real-time deep learning interpretations based on multidimensional morphology to enrich carcinoma cells from malignant effusions without cell staining or labels. Carcinoma cell enrichment was validated with whole genome sequencing and targeted mutation analysis, which showed a higher sensitivity for detection of tumor fractions and critical somatic variant mutations that were initially at low levels or undetectable in presort patient samples. Our study demonstrates the feasibility and added value of supplementing traditional morphology-based cytology with deep learning, multidimensional morphology analysis, and microfluidic sorting.

Topics & Concepts

CytopathologyPathologyMorphology (biology)Fine-needle aspirationImmunostainingBiologySomatic cellCell sortingCellCytologyFlow cytometryComputational biologyMedicineBiopsyImmunohistochemistryMolecular biologyGeneBiochemistryGeneticsAI in cancer detectionCancer Genomics and DiagnosticsCell Image Analysis Techniques
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