利用前视内窥镜光学相干断层扫描和深度学习自动引导肾癌活检。

Chen Wang, Haoyang Cui, Qinghao Zhang, Paul Calle, Yuyang Yan, Feng Yan, Kar-Ming Fung, Sanjay G. Patel, Zhongxin Yu, Sean Duguay, William Vanlandingham, Ajay Jain, Chongle Pan, Qinggong Tang
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引用次数: 0

摘要

经皮肾活检是诊断肾癌的常用方法。然而,活检程序在取样准确性方面仍面临挑战。在此,我们引入了一种用于区分肿瘤和正常组织的前视光学相干断层成像探针,旨在精确引导活检。我们共使用了十个人体肾脏样本进行系统评估,其中九个为恶性肾癌,一个为良性肿瘤细胞瘤。根据其独特的成像特征,癌细胞可与正常肾组织有效区分开来。此外,肿瘤细胞瘤也能与癌区分开来。我们开发了用于组织识别的卷积神经网络。与传统的衰减系数法相比,卷积神经网络模型能提供更准确的癌预测。这些模型在四个肾脏样本的暂留集上达到了 99.1% 的组织识别准确率。此外,它们还能有效区分肿瘤细胞瘤和癌。总之,我们的卷积神经网络辅助内窥镜成像平台能在经皮肾活检过程中提高癌症诊断率。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Automatic renal carcinoma biopsy guidance using forward-viewing endoscopic optical coherence tomography and deep learning

Automatic renal carcinoma biopsy guidance using forward-viewing endoscopic optical coherence tomography and deep learning
Percutaneous renal biopsy is commonly used for kidney cancer diagnosis. However, the biopsy procedure remains challenging in sampling accuracy. Here we introduce a forward-viewing optical coherence tomography probe for differentiating tumor and normal tissues, aiming at precise biopsy guidance. Totally, ten human kidney samples, nine of which had malignant renal carcinoma and one had benign oncocytoma, were used for system evaluation. Based on their distinct imaging features, carcinoma could be efficiently distinguished from normal renal tissues. Additionally, oncocytoma could be differentiated from carcinoma. We developed convolutional neural networks for tissue recognition. Compared to the conventional attenuation coefficient method, convolutional neural network models provided more accurate carcinoma predictions. These models reached a tissue recognition accuracy of 99.1% on a hold-out set of four kidney samples. Furthermore, they could efficiently distinguish oncocytoma from carcinoma. In conclusion, our convolutional neural network-aided endoscopic imaging platform could enhance carcinoma diagnosis during percutaneous renal biopsy procedures. Chen Wang and colleagues develop a forward-viewing optical coherence tomography endoscope for differentiating tumor tissues in renal biopsy. In conjunction with a convolutional neural network developed by the team, tissue recognition rates of over 99% were achieved.
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