Thoracic Aortic Shape: A Data-Driven Scale Space Approach

Joseph A. Pugar, Junsung Kim, Kameel Khabaz, Karen Yuan, Luka Pocivavsek
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Abstract

The scale and resolution of anatomical features extracted from medical CT images are crucial for advancing clinical decision-making tools. While traditional metrics, such as maximum aortic diameter, have long been the standard for classifying aortic diseases, these one-dimensional measures often fall short in capturing the rich geometrical nuances available in progressively advancing imaging modalities. Recent advancements in computational methods and imaging have introduced more sophisticated geometric signatures, in particular scale-invariant measures of aortic shape. Among these, the normalized fluctuation in total integrated Gaussian curvature Abstract Image over a surface mesh model of the aorta has emerged as a particularly promising metric. However, there exists a critical tradeoff between noise reduction and shape signal preservation within the scale space parameters – namely, smoothing intensity, meshing density, and partitioning size. Through a comprehensive analysis of over 1200 unique scale space constructions derived from a cohort of 185 aortic dissection patients, this work pinpoints optimal resolution scales at which shape variations are most strongly correlated with surgical outcomes. Importantly, these findings emphasize the pivotal role of a secondary discretization step, which consistently yield the most robust signal when scaled to approximately 1 cm. The results presented here not only enhance the interpretability and predictive power of data-driven models but also introduce a methodological framework that integrates statistical reinforcement with domain-specific knowledge to optimize feature extraction across scales. This approach enables the development of models that are not only clinically effective but also inherently resilient to biases introduced by patient population heterogeneity. By focusing on the appropriate intermediate scales for analysis, this study paves the way for more precise and reliable tools in medical imaging, ultimately contributing to improved patient outcomes in cardiovascular surgery.
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胸主动脉形状:数据驱动的尺度空间方法
从医学 CT 图像中提取的解剖特征的比例和分辨率对于临床决策工具的发展至关重要。虽然主动脉最大直径等传统指标长期以来一直是主动脉疾病分类的标准,但这些一维指标往往无法捕捉不断进步的成像模式中丰富的几何细微差别。计算方法和成像技术的最新进展引入了更复杂的几何特征,特别是主动脉形状的尺度不变测量。其中,主动脉表面网格模型的总集成高斯曲率归一化波动已成为一种特别有前途的指标。然而,在尺度空间参数(即平滑强度、网格密度和分区大小)中,降噪和形状信号保持之间存在着关键的权衡。通过对来自 185 名主动脉夹层患者的 1200 多个独特尺度空间结构进行综合分析,这项研究确定了最佳分辨率尺度,在该尺度上,形状变化与手术结果的相关性最强。重要的是,这些研究结果强调了二次离散化步骤的关键作用,当缩放至约 1 厘米时,始终能产生最稳健的信号。本文介绍的结果不仅提高了数据驱动模型的可解释性和预测能力,还引入了一种方法框架,将统计强化与特定领域的知识相结合,以优化跨尺度的特征提取。这种方法不仅能开发出临床有效的模型,还能从本质上抵御患者群体异质性带来的偏差。通过重点分析适当的中间尺度,这项研究为医学成像中使用更精确、更可靠的工具铺平了道路,最终有助于改善心血管手术中患者的预后。
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