Deep Learning-Based Computational Cytopathologic Diagnosis of Metastatic Breast Carcinoma in Pleural Fluid

Hong Sik Park, Yosep Chong, Yujin Lee, Kwangil Yim, Kyung Jin Seo, Gisu Hwang, Dahyeon Kim, Gyungyub Gong, Nam Hoon Cho, Chong Woo Yoo, Hyun Joo Choi

Research output: Contribution to journalArticlepeer-review

9 Scopus citations

Abstract

A Pleural effusion cytology is vital for treating metastatic breast cancer; however, concerns have arisen regarding the low accuracy and inter-observer variability in cytologic diagnosis. Although artificial intelligence-based image analysis has shown promise in cytopathology research, its application in diagnosing breast cancer in pleural fluid remains unexplored. To overcome these limitations, we evaluate the diagnostic accuracy of an artificial intelligence-based model using a large collection of cytopathological slides, to detect the malignant pleural effusion cytology associated with breast cancer. This study includes a total of 569 cytological slides of malignant pleural effusion of metastatic breast cancer from various institutions. We extracted 34,221 augmented image patches from whole-slide images and trained and validated a deep convolutional neural network model (DCNN) (Inception-ResNet-V2) with the images. Using this model, we classified 845 randomly selected patches, which were reviewed by three pathologists to compare their accuracy. The DCNN model outperforms the pathologists by demonstrating higher accuracy, sensitivity, and specificity compared to the pathologists (81.1% vs. 68.7%, 95.0% vs. 72.5%, and 98.6% vs. 88.9%, respectively). The pathologists reviewed the discordant cases of DCNN. After re-examination, the average accuracy, sensitivity, and specificity of the pathologists improved to 87.9, 80.2, and 95.7%, respectively. This study shows that DCNN can accurately diagnose malignant pleural effusion cytology in breast cancer and has the potential to support pathologists.

Original languageEnglish
Article number1847
JournalCells
Volume12
Issue number14
DOIs
StatePublished - Jul 2023

Bibliographical note

Funding Information:
This work was partially supported by a National Research Foundation of Korea (NRF) grant funded by the Korean Government (MSIT) (2021R1A2C2013630).

Publisher Copyright:
© 2023 by the authors.

Keywords

  • artificial intelligence
  • breast neoplasms
  • cytology
  • deep learning
  • metastasis
  • pleural fluid

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