Accuracy of an nnUNet neural network for the automatic segmentation of intracranial aneurysms, their parent vessels and major cerebral arteries from magnetic resonance imaging-Time of flight (MRI-TOF).

Elisa Colombo, Mathijs de Boer, Lambertus W Bartels, Luca P Regli, Tristan P C van Doormaal
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Abstract

Background and purpose: To develop a new machine-learning algorithm for fully automatic identification of cerebral arteries and intracranial aneurysms (IAs) based on a manually segmented magnetic resonance imaging with time-of-flight sequences (MRITOF) dataset.

Materials and methods: In this retrospective single-center study, 62 MRI-TOF scans of a total of 73 untreated unruptured IAs were manually color-labelled in 21 classes. A nnUNet architecture was trained on MRI-TOF images. The performance of the automatic segmentation was compared with the manual segmentation using Dice Similarity Coefficient (DSC), Centerline Dice (ClDice) and 95th percentile Hausdorff Distance (HD95). Sensitivity was computed for aneurysm detection.

Results: Across all 21 classes, the median DSC was 0.86 [95CI: 0.81, 0.89], the median ClDice 0.91 [0.85, 0.94] and the median HD95 was 2.9 [1.0, 14.9] mm. Sensitivity of the model for aneurysms detection was 0.8. For this class specifically, a median DSC of 0.88 [0.13, 0.92], median ClDice of 0.89 [0.06, 1.0] and median HD95 of 1.8 [0.58, 81] mm was achieved. The volume of the labelled anatomical structure was the most relevant determinant of accuracy in this model. Median time to predict was 130.6 [60.9, 284.1] seconds.

Conclusions: The nnUNet MRI-TOF based algorithm provided a fast and adequate automatic extraction of unruptured intracranial aneurysms, their parent vessels and the most relevant cerebral arteries. Future steps involve the expansion of the training set with the inclusion of more MRI-TOF studies with and without IAs and its incorporation in 3D imaging viewers and treatment prediction.

Abbreviations: IA = Intracranial Aneurysm; MRI-TOF= Magnetic Resonance Imaging - Time of Flight; DSC = Dice-Sørenson Coefficient; ClDice = Centerline Dice; HD95 = 95th Percentile Hausdorff Distance.

从磁共振成像飞行时间(MRI-TOF)自动分割颅内动脉瘤、其母血管和主要脑动脉的 nnUNet 神经网络的准确性。
背景和目的:基于人工分割的飞行时间序列磁共振成像(MRITOF)数据集,开发一种新的机器学习算法,用于全自动识别脑动脉和颅内动脉瘤(IAs):在这项回顾性单中心研究中,对总共 73 个未经治疗的未破裂动脉瘤的 62 次 MRI-TOF 扫描进行了 21 类手动彩色标记。在 MRI-TOF 图像上训练了 nnUNet 架构。使用骰子相似系数(DSC)、中心线骰子(ClDice)和第 95 百分位数豪斯多夫距离(HD95)比较了自动分割与人工分割的性能。计算了动脉瘤检测的灵敏度:在所有 21 个等级中,DSC 中位数为 0.86 [95CI:0.81,0.89],ClDice 中位数为 0.91 [0.85,0.94],HD95 中位数为 2.9 [1.0,14.9] mm。该模型对动脉瘤检测的灵敏度为 0.8。该类动脉瘤的 DSC 中位数为 0.88 [0.13, 0.92],ClDice 中位数为 0.89 [0.06, 1.0],HD95 中位数为 1.8 [0.58, 81]毫米。在该模型中,标记解剖结构的体积是决定准确性的最重要因素。中位预测时间为 130.6 [60.9, 284.1] 秒:基于 nnUNet MRI-TOF 的算法可快速、充分地自动提取未破裂的颅内动脉瘤、其母血管和最相关的脑动脉。未来的步骤包括扩大训练集,纳入更多有无颅内动脉瘤的 MRI-TOF 研究,并将其纳入三维成像查看器和治疗预测中:缩写:IA=颅内动脉瘤;MRI-TOF=磁共振成像-飞行时间;DSC=狄斯-索伦森系数;ClDice=中心线狄斯;HD95=第95百分位数豪斯多夫距离。
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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