Cancer Medicine (Jan 2022)

A screening assistance system for cervical cytology of squamous cell atypia based on a two‐step combined CNN algorithm with label smoothing

  • Yuta Nambu,
  • Tasuku Mariya,
  • Shota Shinkai,
  • Mina Umemoto,
  • Hiroko Asanuma,
  • Ikuma Sato,
  • Yoshihiko Hirohashi,
  • Toshihiko Torigoe,
  • Yuichi Fujino,
  • Tsuyoshi Saito

DOI
https://doi.org/10.1002/cam4.4460
Journal volume & issue
Vol. 11, no. 2
pp. 520 – 529

Abstract

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Abstract Background Although many cervical cytology diagnostic support systems have been developed, it is challenging to classify overlapping cell clusters with a variety of patterns in the same way that humans do. In this study, we developed a fast and accurate system for the detection and classification of atypical cell clusters by using a two‐step algorithm based on two different deep learning algorithms. Methods We created 919 cell images from liquid‐based cervical cytological samples collected at Sapporo Medical University and annotated them based on the Bethesda system as a dataset for machine learning. Most of the images captured overlapping and crowded cells, and images were oversampled by digital processing. The detection system consists of two steps: (1) detection of atypical cells using You Only Look Once v4 (YOLOv4) and (2) classification of the detected cells using ResNeSt. A label smoothing algorithm was used for the dataset in the second classification step. This method annotates multiple correct classes from a single cell image with a smooth probability distribution. Results The first step, cell detection by YOLOv4, was able to detect all atypical cells above ASC‐US without any observed false negatives. The detected cell images were then analyzed in the second step, cell classification by the ResNeSt algorithm, which exhibited average accuracy and F‐measure values of 90.5% and 70.5%, respectively. The oversampling of the training image and label smoothing algorithm contributed to the improvement of the system's accuracy. Conclusion This system combines two deep learning algorithms to enable accurate detection and classification of cell clusters based on the Bethesda system, which has been difficult to achieve in the past. We will conduct further research and development of this system as a platform for augmented reality microscopes for cytological diagnosis.

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