Feasibility study of ResNet-50 in the distinction of intraoral neural tumors using histopathological images

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-06-04 DOI:10.1111/jop.13560

Giovanna Calabrese dos Santos, Anna Luíza Damaceno Araújo, Henrique Alves de Amorim, Daniela Giraldo-Roldán, Sebastião Silvério de Sousa-Neto, Pablo Agustin Vargas, Luiz Paulo Kowalski, Alan Roger Santos-Silva, Marcio Ajudarte Lopes, Matheus Cardoso Moraes

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Abstract

Background

Neural tumors are difficult to distinguish based solely on cellularity and often require immunohistochemical staining to aid in identifying the cell lineage. This article investigates the potential of a Convolutional Neural Network for the histopathological classification of the three most prevalent benign neural tumor types: neurofibroma, perineurioma, and schwannoma.

Methods

A model was developed, trained, and evaluated for classification using the ResNet-50 architecture, with a database of 30 whole-slide images stained in hematoxylin and eosin (106, 782 patches were generated from and divided among the training, validation, and testing subsets, with strategies to avoid data leakage).

Results

The model achieved an accuracy of 70% (64% normalized), and showed satisfactory results for differentiating two of the three classes, reaching approximately 97% and 77% as true positives for neurofibroma and schwannoma classes, respectively, and only 7% for perineurioma class. The AUROC curves for neurofibroma and schwannoma classes was 0.83%, and 0.74% for perineurioma. However, the specificity rate for the perineurioma class was greater (83%) than in the other two classes (neurofibroma with 61%, and schwannoma with 60%).

Conclusion

This investigation demonstrated significant potential for proficient performance with a limitation regarding the perineurioma class (the limited feature variability observed contributed to a lower performance).

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ResNet-50 利用组织病理学图像区分口腔内神经肿瘤的可行性研究。

背景：神经肿瘤很难仅凭细胞性质进行区分，通常需要免疫组化染色来帮助确定细胞系。本文研究了卷积神经网络对神经纤维瘤、会厌瘤和裂隙瘤这三种最常见的良性神经肿瘤类型进行组织病理学分类的潜力：方法：使用 ResNet-50 架构开发、训练和评估了一个分类模型，数据库包含 30 张经苏木精和伊红染色的全切片图像（106,782 个补丁由训练子集、验证子集和测试子集生成和划分，并采取了避免数据泄漏的策略）：该模型的准确率为 70%（归一化为 64%），在区分三个类别中的两个类别方面取得了令人满意的结果，神经纤维瘤和裂隙瘤类别的真阳性率分别达到约 97% 和 77%，而会厌瘤类别的真阳性率仅为 7%。神经纤维瘤和分裂瘤的 AUROC 曲线为 0.83%，会厌瘤为 0.74%。然而，会厌瘤类别的特异性率（83%）高于其他两个类别（神经纤维瘤为 61%，分裂瘤为 60%）：这项研究表明，会厌瘤类别的准确性具有很大的潜力，但也存在局限性（观察到的特征变异性有限，导致准确性较低）。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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