Establishment of artificial intelligence model for precise histological subtyping of lung adenocarcinoma and its application to quantitative and spatial analysis.

IF 1.9 4区 医学 Q3 ONCOLOGY
Eisuke Miura, Katsura Emoto, Tokiya Abe, Akinori Hashiguchi, Tomoyuki Hishida, Keisuke Asakura, Michiie Sakamoto
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引用次数: 0

Abstract

Background: The histological subtype of lung adenocarcinoma is a major prognostic factor. We developed a new artificial intelligence model to classify lung adenocarcinoma images into seven histological subtypes and adopted the model for whole-slide images to investigate the relationship between the distribution of histological subtypes and clinicopathological factors.

Methods: Using histological subtype images, which are typical for pathologists, we trained and validated an artificial intelligence model. Then, the model was applied to whole-slide images of resected lung adenocarcinoma specimens from 147 cases.

Result: The model achieved an accuracy of 99.7% in training sets and 90.4% in validation sets consisting of typical tiles of histological subtyping for pathologists. When the model was applied to whole-slide images, the predominant subtype according to the artificial intelligence model classification matched that determined by pathologists in 75.5% of cases. The predominant subtype and tumor grade (using the WHO fourth and fifth classifications) determined by the artificial intelligence model resulted in similar recurrence-free survival curves to those determined by pathologists. Furthermore, we stratified the recurrence-free survival curves for patients with different proportions of high-grade components (solid, micropapillary and cribriform) according to the physical distribution of the high-grade component. The results suggested that tumors with centrally located high-grade components had a higher malignant potential (P < 0.001 for 5-20% high-grade component).

Conclusion: The new artificial intelligence model for histological subtyping of lung adenocarcinoma achieved high accuracy, and subtype quantification and subtype distribution analyses could be achieved. Artificial intelligence model therefore has potential for clinical application for both quantification and spatial analysis.

建立肺腺癌组织学精准亚型的人工智能模型,并将其应用于定量和空间分析。
背景:肺腺癌的组织学亚型是一个重要的预后因素。我们开发了一种新的人工智能模型,将肺腺癌图像分为七种组织学亚型,并将该模型用于全滑动图像,研究组织学亚型分布与临床病理因素之间的关系:方法:利用病理学家典型的组织学亚型图像,我们训练并验证了一个人工智能模型。然后,将该模型应用于 147 例切除的肺腺癌标本的全切片图像:结果:该模型在训练集中的准确率为 99.7%,在验证集中的准确率为 90.4%。当该模型应用于整张切片图像时,根据人工智能模型分类得出的主要亚型与病理学家确定的亚型相符的病例占 75.5%。人工智能模型确定的主要亚型和肿瘤分级(采用世界卫生组织第四和第五分级)与病理学家确定的无复发生存曲线相似。此外,我们还根据高级别成分的物理分布情况,对高级别成分(实性、微乳头状和楔形)比例不同的患者的无复发生存曲线进行了分层。结果表明,高级别成分位于中心位置的肿瘤具有更高的恶性潜能(P 结论):用于肺腺癌组织学亚型分析的新型人工智能模型具有较高的准确性,可实现亚型量化和亚型分布分析。因此,人工智能模型在量化和空间分析方面具有临床应用潜力。
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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来源期刊
CiteScore
3.70
自引率
8.30%
发文量
177
审稿时长
3-8 weeks
期刊介绍: Japanese Journal of Clinical Oncology is a multidisciplinary journal for clinical oncologists which strives to publish high quality manuscripts addressing medical oncology, clinical trials, radiology, surgery, basic research, and palliative care. The journal aims to contribute to the world"s scientific community with special attention to the area of clinical oncology and the Asian region. JJCO publishes various articles types including: ・Original Articles ・Case Reports ・Clinical Trial Notes ・Cancer Genetics Reports ・Epidemiology Notes ・Technical Notes ・Short Communications ・Letters to the Editors ・Solicited Reviews
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