Department of Surgery, Tokyo Medical University, Tokyo, Japan.
Department of Surgery, Tokyo Medical University, Tokyo, Japan.
Lung Cancer. 2022 Aug;170:85-90. doi: 10.1016/j.lungcan.2022.06.007. Epub 2022 Jun 11.
The size of the solid part of a tumor, as measured using thin-section computed tomography, can help predict disease prognosis in patients with early-stage lung cancer. Although three-dimensional volumetric analysis may be more useful than two-dimensional evaluation, measuring the solid part of some lesions is difficult using this methods. We developed an artificial intelligence-based analysis software that can distinguish the solid and non-solid parts (ground-grass opacity). This software calculates the solid part volume in a totally automated and reproducible manner. The predictive performance of the artificial intelligence software was evaluated in terms of survival or recurrence-free survival.
We analyzed the high-resolution computed tomography images of the primary lesion in 772 consecutive patients with clinical stage 0-I adenocarcinoma. We performed automated measurement of the solid part volume using an artificial intelligence-based algorithm in collaboration with FUJIFILM Corporation. The solid part size, the solid part volume based on traditional three-dimensional volumetric analysis, and the solid part volume based on artificial intelligence were compared.
Higher areas under the curve related to the solid part volume were provided by the artificial intelligence-based method (0.752) than by the solid part size (0.722) and traditional three-dimensional volumetric analysis-based method (0.723). Multivariate analysis demonstrated that the solid part volume based on artificial intelligence was independently correlated with overall survival (P = 0.019) and recurrence-free survival (P < 0.001).
The solid part volume measured by artificial intelligence was superior to conventional methods in predicting the prognosis of clinical stage 0-I adenocarcinoma.
使用薄层计算机断层扫描测量肿瘤的实体部分大小可以帮助预测早期肺癌患者的疾病预后。虽然三维体积分析可能比二维评估更有用,但使用这种方法测量某些病变的实体部分较为困难。我们开发了一种基于人工智能的分析软件,可以区分实体和非实体部分(磨玻璃影)。该软件可以自动且可重复地计算实体部分的体积。该人工智能软件的预测性能是根据生存或无复发生存来评估的。
我们分析了 772 例连续临床 I 期腺癌患者的原发灶高分辨率计算机断层扫描图像。我们与富士胶片公司合作,使用基于人工智能的算法自动测量实体部分的体积。比较了实体部分大小、基于传统三维体积分析的实体部分体积和基于人工智能的实体部分体积。
基于人工智能的方法提供的固体部分体积的曲线下面积(AUC)高于固体部分大小(0.722)和传统三维体积分析方法(0.723)(0.752)。多变量分析表明,基于人工智能的实体部分体积与总生存期(P=0.019)和无复发生存期(P<0.001)独立相关。
人工智能测量的实体部分体积在预测临床 I 期腺癌的预后方面优于传统方法。
