Relationship between Liquid-Based Cytology Preservative Solutions and Artificial Intelligence: Liquid-Based Cytology Specimen Cell Detection Using YOLOv5 Deep Convolutional Neural Network

Abstract: <b><i>Introduction:</i></b> Deep learning is a subset of machine learning that has contributed to significant changes in feature extraction and image classification and is being actively researched and developed in the field of cytopathology. Liquid-based cytology (LBC) enables standardized cytological preparation and is also applied to artificial intelligence (AI) research, but cytological features differ depending on the LBC preservative solution types. In this study, the relationship… Show more

“…The detection rate of TP preparations for the TS models was higher than that of the SP preparations in all five cell lines but was slightly lower than that of the TP model. This is consistent with our previous finding that the preparations used for training and detection should follow the same processing techniques to obtain a high detection rate with a high degree of accuracy 12. Although it may be possible to use a specific model based on the type of fixative, it is almost impossible to use a tumour-specific model for diagnostic samples.…”

“…The detection rate (approximately 25%) varies depending on the type of LBC preservative solution used. 12 According to the reports, the TP and SP specimens have different morphologies. [6][7][8][9][10] Mathematical and statistical analyses have revealed that the cytoplasm and nuclear areas of the TP specimens were larger than those of the SP specimens.…”

“…These differences also affect cell detection using AI. The detection rate (approximately 25%) varies depending on the type of LBC preservative solution used 12 . According to the reports, the TP and SP specimens have different morphologies 6–10 .…”

“…11 Previous studies have reported the relationship between LBC preservative solutions and cell detection using AI. 12 During cytological sample preparation, the differences in the LBC preservative solutions used for training and detection decrease cell detection accuracy. In addition, the construction of a deep learning model for use with specimens prepared under a variety of conditions is required.…”

“…Deep learning‐based studies often utilise models that are examined under limited clinical settings and trained on relatively small datasets with little heterogeneity and, therefore, cannot be generalised to a large number of laboratory settings 11 . Previous studies have reported the relationship between LBC preservative solutions and cell detection using AI 12 . During cytological sample preparation, the differences in the LBC preservative solutions used for training and detection decrease cell detection accuracy.…”

Relationship between a deep learning model and liquid‐based cytological processing techniques

“…The detection rate of TP preparations for the TS models was higher than that of the SP preparations in all five cell lines but was slightly lower than that of the TP model. This is consistent with our previous finding that the preparations used for training and detection should follow the same processing techniques to obtain a high detection rate with a high degree of accuracy 12. Although it may be possible to use a specific model based on the type of fixative, it is almost impossible to use a tumour-specific model for diagnostic samples.…”

“…The detection rate (approximately 25%) varies depending on the type of LBC preservative solution used. 12 According to the reports, the TP and SP specimens have different morphologies. [6][7][8][9][10] Mathematical and statistical analyses have revealed that the cytoplasm and nuclear areas of the TP specimens were larger than those of the SP specimens.…”

“…These differences also affect cell detection using AI. The detection rate (approximately 25%) varies depending on the type of LBC preservative solution used 12 . According to the reports, the TP and SP specimens have different morphologies 6–10 .…”

“…11 Previous studies have reported the relationship between LBC preservative solutions and cell detection using AI. 12 During cytological sample preparation, the differences in the LBC preservative solutions used for training and detection decrease cell detection accuracy. In addition, the construction of a deep learning model for use with specimens prepared under a variety of conditions is required.…”

“…Deep learning‐based studies often utilise models that are examined under limited clinical settings and trained on relatively small datasets with little heterogeneity and, therefore, cannot be generalised to a large number of laboratory settings 11 . Previous studies have reported the relationship between LBC preservative solutions and cell detection using AI 12 . During cytological sample preparation, the differences in the LBC preservative solutions used for training and detection decrease cell detection accuracy.…”

Relationship between a deep learning model and liquid‐based cytological processing techniques

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