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用于升主动脉瘤分割的深度学习方法。

Deep learning approach for the segmentation of aneurysmal ascending aorta.

作者信息

Comelli Albert, Dahiya Navdeep, Stefano Alessandro, Benfante Viviana, Gentile Giovanni, Agnese Valentina, Raffa Giuseppe M, Pilato Michele, Yezzi Anthony, Petrucci Giovanni, Pasta Salvatore

机构信息

Ri.MED Foundation, Palermo, Italy.

Institute of Molecular Bioimaging and Physiology, National Research Council (IBFM-CNR), Cefalù, Italy.

出版信息

Biomed Eng Lett. 2020 Nov 20;11(1):15-24. doi: 10.1007/s13534-020-00179-0. eCollection 2021 Feb.

DOI:10.1007/s13534-020-00179-0
PMID:33747600
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7930147/
Abstract

Diagnosis of ascending thoracic aortic aneurysm (ATAA) is based on the measurement of the maximum aortic diameter, but size is not a good predictor of the risk of adverse events. There is growing interest in the development of novel image-derived risk strategies to improve patient risk management towards a highly individualized level. In this study, the feasibility and efficacy of deep learning for the automatic segmentation of ATAAs was investigated using UNet, ENet, and ERFNet techniques. Specifically, CT angiography done on 72 patients with ATAAs and different valve morphology (i.e., tricuspid aortic valve, TAV, and bicuspid aortic valve, BAV) were semi-automatically segmented with Mimics software (Materialize NV, Leuven, Belgium), and then used for training of the tested deep learning models. The segmentation performance in terms of accuracy and time inference were compared using several parameters. All deep learning models reported a dice score higher than 88%, suggesting a good agreement between predicted and manual ATAA segmentation. We found that the ENet and UNet are more accurate than ERFNet, with the ENet much faster than UNet. This study demonstrated that deep learning models can rapidly segment and quantify the 3D geometry of ATAAs with high accuracy, thereby facilitating the expansion into clinical workflow of personalized approach to the management of patients with ATAAs.

摘要

升主动脉瘤(ATAA)的诊断基于主动脉最大直径的测量,但尺寸并不是不良事件风险的良好预测指标。人们越来越关注开发新的基于图像的风险策略,以将患者风险管理提升到高度个性化的水平。在本研究中,使用UNet、ENet和ERFNet技术研究了深度学习自动分割ATAA的可行性和有效性。具体而言,对72例患有ATAA且具有不同瓣膜形态(即三尖瓣主动脉瓣,TAV,和二尖瓣主动脉瓣,BAV)的患者进行的CT血管造影,使用Mimics软件(Materialize NV,比利时鲁汶)进行半自动分割,然后用于训练测试的深度学习模型。使用几个参数比较了在准确性和时间推断方面的分割性能。所有深度学习模型的骰子系数均高于88%,表明预测的ATAA分割与手动分割之间具有良好的一致性。我们发现ENet和UNet比ERFNet更准确,且ENet比UNet快得多。本研究表明,深度学习模型可以快速、准确地分割和量化ATAA的三维几何形状,从而有助于将个性化方法扩展到ATAA患者管理的临床工作流程中。

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