基于深度学习和二次谐波成像的卵巢癌识别技术。

IF 2 3区 物理与天体物理 Q3 BIOCHEMICAL RESEARCH METHODS
Bingzi Kang, Siyu Chen, Guangxing Wang, Yuhang Huang, Han Wu, Jiajia He, Xiaolu Li, Gangqin Xi, Guizhu Wu, Shuangmu Zhuo
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引用次数: 0

摘要

卵巢癌是最常见的妇科癌症之一,也是全球妇女因癌症死亡的第八大原因。手术是治疗癌症的最重要选择之一。在手术过程中,一般需要进行活组织检查以筛查病变;然而,传统的病例检查费时费力,而且需要病理学家具备丰富的经验和知识。因此,本研究提出了一种结合二次谐波发生(SHG)成像和深度学习的简单、快速、无标记的卵巢癌诊断方法。对未染色的新鲜人体卵巢组织进行SHG成像,并使用Pyramid Vision Transformer V2(PVTv2)模型对其进行精确表征。结果表明,SHG成像的胶原纤维可以量化卵巢癌。此外,PVTv2 模型还能准确地将从我们的影像库中获得的 3240 幅 SHG 图像区分为良性、正常和恶性图像,最终准确率达到 98.4%。这些结果表明,SHG 成像技术与深度学习模型相结合,在诊断患病卵巢组织方面具有巨大潜力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Ovarian cancer identification technology based on deep learning and second harmonic generation imaging

Ovarian cancer is among the most common gynecological cancers and the eighth leading cause of cancer-related deaths among women worldwide. Surgery is among the most important options for cancer treatment. During surgery, a biopsy is generally required to screen for lesions; however, traditional case examinations are time consuming and laborious and require extensive experience and knowledge from pathologists. Therefore, this study proposes a simple, fast, and label-free ovarian cancer diagnosis method that combines second harmonic generation (SHG) imaging and deep learning. Unstained fresh human ovarian tissues were subjected to SHG imaging and accurately characterized using the Pyramid Vision Transformer V2 (PVTv2) model. The results showed that the SHG imaged collagen fibers could quantify ovarian cancer. In addition, the PVTv2 model could accurately differentiate the 3240 SHG images obtained from our imaging collection into benign, normal, and malignant images, with a final accuracy of 98.4%. These results demonstrate the great potential of SHG imaging techniques combined with deep learning models for diagnosing the diseased ovarian tissues.

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来源期刊
Journal of Biophotonics
Journal of Biophotonics 生物-生化研究方法
CiteScore
5.70
自引率
7.10%
发文量
248
审稿时长
1 months
期刊介绍: The first international journal dedicated to publishing reviews and original articles from this exciting field, the Journal of Biophotonics covers the broad range of research on interactions between light and biological material. The journal offers a platform where the physicist communicates with the biologist and where the clinical practitioner learns about the latest tools for the diagnosis of diseases. As such, the journal is highly interdisciplinary, publishing cutting edge research in the fields of life sciences, medicine, physics, chemistry, and engineering. The coverage extends from fundamental research to specific developments, while also including the latest applications.
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