Deep Learning-Based Image Classification and Segmentation on Digital Histopathology for Oral Squamous Cell Carcinoma: A Systematic Review and Meta-Analysis

IF 2.7 3区医学 Q1 DENTISTRY, ORAL SURGERY & MEDICINE Journal of Oral Pathology & Medicine Pub Date : 2024-09-10 DOI:10.1111/jop.13578

Zeynab Pirayesh, Hossein Mohammad-Rahimi, Nikoo Ghasemi, Saeed-Reza Motamedian, Terme Sarrafan Sadeghi, Hediye Koohi, Rata Rokhshad, Shima Moradian Lotfi, Anahita Najafi, Shahd A. Alajaji, Zaid H. Khoury, Maryam Jessri, Ahmed S. Sultan

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Abstract

Background

Artificial intelligence (AI)-based tools have shown promise in histopathology image analysis in improving the accuracy of oral squamous cell carcinoma (OSCC) detection with intent to reduce human error.

Objectives

This systematic review and meta-analysis evaluated deep learning (DL) models for OSCC detection on histopathology images by assessing common diagnostic performance evaluation metrics for AI-based medical image analysis studies.

Methods

Diagnostic accuracy studies that used DL models for the analysis of histopathological images of OSCC compared to the reference standard were analyzed. Six databases (PubMed, Google Scholar, Scopus, Embase, ArXiv, and IEEE) were screened for publications without any time limitation. The QUADAS-2 tool was utilized to assess quality. The meta-analyses included only studies that reported true positives (TP), true negatives (TN), false positives (FP), and false negatives (FN) in their test sets.

Results

Of 1267 screened studies, 17 studies met the final inclusion criteria. DL methods such as image classification (n = 11) and segmentation (n = 3) were used, and some studies used combined methods (n = 3). On QUADAS-2 assessment, only three studies had a low risk of bias across all applicability domains. For segmentation studies, 0.97 was reported for accuracy, 0.97 for sensitivity, 0.98 for specificity, and 0.92 for Dice. For classification studies, accuracy was reported as 0.99, sensitivity 0.99, specificity 1.0, Dice 0.95, F1 score 0.98, and AUC 0.99. Meta-analysis showed pooled estimates of 0.98 sensitivity and 0.93 specificity.

Conclusion

Application of AI-based classification and segmentation methods on image analysis represents a fundamental shift in digital pathology. DL approaches demonstrated significantly high accuracy for OSCC detection on histopathology, comparable to that of human experts in some studies. Although AI-based models cannot replace a well-trained pathologist, they can assist through improving the objectivity and repeatability of the diagnosis while reducing variability and human error as a consequence of pathologist burnout.

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基于深度学习的口腔鳞状细胞癌数字组织病理学图像分类与分割：系统综述与元分析

背景基于人工智能（AI）的工具在组织病理学图像分析中显示出了提高口腔鳞状细胞癌（OSCC）检测准确性的前景，目的是减少人为误差。方法分析了使用DL模型分析OSCC组织病理学图像的诊断准确性研究与参考标准的比较。筛选了六个数据库（PubMed、Google Scholar、Scopus、Embase、ArXiv 和 IEEE）中的出版物，没有任何时间限制。采用 QUADAS-2 工具评估研究质量。荟萃分析仅包括在其测试集中报告了真阳性（TP）、真阴性（TN）、假阳性（FP）和假阴性（FN）的研究。这些研究使用了 DL 方法，如图像分类（11 项）和分割（3 项），有些研究还使用了组合方法（3 项）。在 QUADAS-2 评估中，只有三项研究在所有适用性领域的偏倚风险较低。就分割研究而言，准确性为 0.97，灵敏度为 0.97，特异性为 0.98，Dice 为 0.92。分类研究的准确性为 0.99，灵敏度为 0.99，特异性为 1.0，Dice 为 0.95，F1 得分为 0.98，AUC 为 0.99。结论在图像分析中应用基于人工智能的分类和分割方法代表了数字病理学的根本性转变。在一些研究中，DL方法在组织病理学上检测OSCC的准确率明显较高，可与人类专家相媲美。虽然基于人工智能的模型无法取代训练有素的病理学家，但它们可以提高诊断的客观性和可重复性，同时减少病理学家职业倦怠导致的变异性和人为错误。

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来源期刊

Journal of Oral Pathology & Medicine 医学-病理学

CiteScore

5.90

自引率

6.10%

发文量

121

审稿时长

4-8 weeks

期刊介绍： The aim of the Journal of Oral Pathology & Medicine is to publish manuscripts of high scientific quality representing original clinical, diagnostic or experimental work in oral pathology and oral medicine. Papers advancing the science or practice of these disciplines will be welcomed, especially those which bring new knowledge and observations from the application of techniques within the spheres of light and electron microscopy, tissue and organ culture, immunology, histochemistry and immunocytochemistry, microbiology, genetics and biochemistry.