绘制主动脉壁和血栓的正电子发射断层摄取图的验证和重现性

Mireia Bragulat-Arevalo, Marta Ferrer-Cornet, Lydia Dux-Santoy, Ruper Olivero-Soldevilla, Marvin Garcia-Reyes, Gisela Teixido-Tura, Juan Garrido-Oliver, Laura Galian-Gay, Pere Lopez-Gutierrez, Alberto Morales-Galan, Alba Catala-Santarrufina, Jose Ramon Garcia-Garzon, Noemi Martinez-Esquerda, Javier Solsona, Ignacio Ferreira-Gonzalez, Sergi Bellmunt-Montoya, Jose Rodriguez-Palomares, Andrea Guala
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引用次数: 0

摘要

简介:主动脉瘤是主动脉的常见疾病,人们对其病因、进展和风险的了解有限,也没有有效的药物治疗方法。18F-fluorodesoxyglucose Positron Emission Tomography(18F-FDG PET)可提供葡萄糖活性的分子水平信息,是血管炎症的潜在类似物,这可能有助于提高对主动脉瘤的认识和临床治疗。目的:本研究旨在开发、测试和验证一种创新的主动脉壁摄取图谱。方法:研究人员获取了 72 名患者的 PET/磁共振(MR)数据。对主动脉管腔进行了分割,并确定了 9 个解剖地标,以创建标准化的主动脉管腔离散度,包括多达 80 个斑块。如果存在血栓,则使用黑血磁共振图像指导血栓分割,血栓分割与管腔分割合并,生成胸腹主动脉壁掩膜。然后将该掩膜向内和向外扩展 1 至 5 毫米,形成感兴趣的主动脉壁容积。计算每个主动脉斑块的中位数和百分位数第 95 位标准摄取值 (SUV)。另一名观察者对随机抽取的 23 名患者进行了同样的分析,以评估观察者之间的可重复性。结果:该技术非常可行,可对所有 72 名患者和 99.6% 的主动脉壁斑块进行分析。图像分析工作流程的可重复性很高,主动脉和血栓分段的 Dice 分数分别为 0.90 [0.57, 0.91] 和 0.85 [0.78, 0.88],解剖参照物的共定位也非常好 (5.74 [3.62, 8.73] mm)。主动脉壁 SUV 测绘的观察者间重现性非常好(ICC 在 0.924 和 0.945 之间),主动脉壁厚度的差异有限,血栓 SUV 定量的表现相似。区域 SUV 值的验证显示出良好的一致性,主动脉壁厚度值的影响有限。6 mm 厚度的感兴趣容积在可重复性和准确性之间取得了平衡。结论:基于多模态 PET/MR 数据的图像分析实施可提供可重现且准确的定量主动脉壁 18F-FDG 摄取图。这种方法可以探索与炎症血管状态相关的局部因素,并可能在临床实践中产生影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Validation and reproducibility of mapping positron emission tomography uptake in the aortic wall and thrombus
INTRODUCTION: Aortic aneurysms are prevalent diseases of the aorta, with limited knowledge about their aetiology, progression, and risk, and no effective pharmacological treatment. 18F-fluorodesoxyglucose Positron Emission Tomography (18F-FDG PET) provides molecular level information of glucose activity, serving as potential analogue of vascular inflammation, which may be relevant to improve knowledge and clinical management of aortic aneurysms. Nonetheless, current clinical assessment of 18F-FDG uptake presents several limitations. PURPOSE: The aim of this study was to develop, test and validate an innovative aortic wall uptake mapping. METHODS: PET/magnetic resonance (MR) data from 72 patients were acquired. The aortic lumen was segmented, and 9 anatomical landmarks were identified to create a standardised aortic lumen discretization including up to 80 patches. Black-blood MR images were used to guide thrombus segmentation if present, which was merged with lumen segmentation to generate a thoraco-abdominal aortic wall mask. This mask was then expanded by 1 to 5 mm in the inward and outward directions, resulting in an aortic wall volume of interest. Median and percentile 95th standard uptake value (SUV) was calculated on each aortic patch. A second observer performed the same analysis on 23 randomly selected patients for inter-observer reproducibility assessment. Validation was performed by comparisons with regional SUV measured by a nuclear medicine expert. RESULTS: The technique was highly feasible, permitting the analysis of all 72 patients and in the 99.6% of aortic wall patches. The image analysis workflow was highly reproducible, resulting in Dice scores of 0.90 [0.57, 0.91] and 0.85 [0.78, 0.88] for aortic and thrombus segmentations, respectively, and in excellent co-localization for anatomical references (5.74 [3.62, 8.73] mm). The inter-observer reproducibility of aortic wall SUV mapping was excellent (ICC between 0.924 and 0.945), with limited differences with respect to aortic wall thickness and similar performances for SUV quantification in the thrombus. The validation of regional SUV values showed good agreement, with limited impact of aortic wall thickness values. A balance between reproducibility and accuracy was obtained with a volume of interest of 6 mm thickness. CONCLUSIONS: An image analysis implementation based on multi-modality PET/MR data provides reproducible and accurate quantitative aortic wall 18F-FDG uptake maps. This approach may enable exploring local factors related to an inflammatory vascular state, with possible repercussions in clinical practice.
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