利用形状统计进行预测建模,用于放射治疗计划中自动轮廓的可解释性和鲁棒性质量保证。

Q2 Computer Science
Zachary T Wooten, Cenji Yu, Laurence E Court, Christine B Peterson
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引用次数: 0

摘要

图像分割和轮廓的深度学习方法作为在放射治疗计划期间描绘医学图像中的解剖结构的自动化方法正在获得突出地位。这些轮廓用于指导放射治疗计划,因此在用于计划之前标记轮廓错误是很重要的。这就需要有效的质量保证方法,以便在放射治疗中临床使用自动轮廓。我们提出了一种新的轮廓质量保证方法,它只需要形状特征,使其独立于用于获取图像的平台。我们的方法使用随机森林分类器来识别低质量的轮廓。在312个肾脏轮廓的数据集上,我们的方法在识别不可接受轮廓时获得了0.937的曲线下交叉验证面积。我们将我们的方法应用于36个肾脏轮廓的未标记验证数据集。我们标记了6个轮廓,然后由宫颈轮廓专家检查,他发现6个轮廓中有4个包含错误。我们使用Shapley值来描述导致每个轮廓被标记的特定形状特征,为描述轮廓误差的来源提供了一个起点。这些有希望的结果表明,我们的方法是可行的质量保证自动放疗轮廓线。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Predictive modeling using shape statistics for interpretable and robust quality assurance of automated contours in radiation treatment planning.

Predictive modeling using shape statistics for interpretable and robust quality assurance of automated contours in radiation treatment planning.

Predictive modeling using shape statistics for interpretable and robust quality assurance of automated contours in radiation treatment planning.

Predictive modeling using shape statistics for interpretable and robust quality assurance of automated contours in radiation treatment planning.

Deep learning methods for image segmentation and contouring are gaining prominence as an automated approach for delineating anatomical structures in medical images during radiation treatment planning. These contours are used to guide radiotherapy treatment planning, so it is important that contouring errors are flagged before they are used for planning. This creates a need for effective quality assurance methods to enable the clinical use of automated contours in radiotherapy. We propose a novel method for contour quality assurance that requires only shape features, making it independent of the platform used to obtain the images. Our method uses a random forest classifier to identify low-quality contours. On a dataset of 312 kidney contours, our method achieved a cross-validated area under the curve of 0.937 in identifying unacceptable contours. We applied our method to an unlabeled validation dataset of 36 kidney contours. We flagged 6 contours which were then reviewed by a cervix contour specialist, who found that 4 of the 6 contours contained errors. We used Shapley values to characterize the specific shape features that contributed to each contour being flagged, providing a starting point for characterizing the source of the contouring error. These promising results suggest our method is feasible for quality assurance of automated radiotherapy contours.

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CiteScore
4.50
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