三维对比增强融合超声与计算机断层血管造影在颈动脉疾病中对血管腔和斑块的准确体积评估的比较。
3-D Contrast-Enhanced Fusion Ultrasound for Accurate Volume Assessment of Vessel Lumen and Plaque in Carotid Artery Disease as Compared With Computed Tomography Angiography.
机构信息
Department of Vascular Surgery, Copenhagen University Hospital, Rigshospitalet, Copenhagen, Denmark; Department of Clinical Medicine, Faculty of Health and Medical Sciences, University of Copenhagen, Denmark.
Department of Vascular Surgery, Copenhagen University Hospital, Rigshospitalet, Copenhagen, Denmark; Department of Clinical Medicine, Faculty of Health and Medical Sciences, University of Copenhagen, Denmark; Copenhagen Academy for Medical Education and Simulation (CAMES), Capital Region of Denmark, Copenhagen, Denmark.
出版信息
Ultrasound Med Biol. 2024 Mar;50(3):399-406. doi: 10.1016/j.ultrasmedbio.2023.11.013. Epub 2024 Jan 3.
OBJECTIVE
Three-dimensional contrast-enhanced fusion ultrasound (CEFUS) of atherosclerotic carotid arteries provides spatial visualization of the vessel lumen, creating a lumenography. As in 3-D computed tomography angiography (CTA), 3-D CEFUS outlines the contrast-filled lumen. Plaque and vessel contours are distinguished in 3-D CEFUS, allowing plaque volume quantification as a valid estimate of carotid plaque burden. Three-dimensional CEFUS is unproven in intermodality studies, vindicating the assessment of 3-D CEFUS applicability and comparing 3-D CEFUS and 3-D CTA lumenography as a proof-of-concept study.
METHODS
Using an ultrasound system with magnetic tracking, a linear array transducer and SonoVue contrast agent, 3-D CEFUS acquisitions were generated by spatial stitching of serial 2-D images. From 3-D CEFUS and 3-D CTA imaging, the atherosclerotic carotid arteries were reconstructed with lumenography in an offline software program for lumen and plaque volume quantification. Bland-Altman analysis was used for inter-image modality agreement.
RESULTS
The study included 39 carotid arteries. Mean lumen and plaque volume in 3-D CEFUS were 0.63 cm (standard deviation [SD]: 0.26) and 0.62 cm (SD: 0.26), respectively. Lumen volume differences between 3-D CEFUS and 3-D CTA were non-significant, with a mean difference of 0.01 cm (SD: 0.02, p = 0.26) and limits of agreement (LoA) range of ±0.11 cm. Mean plaque volume difference was -0.12 cm (SD: 0.19, p = 0.006) with a LoA range of ±0.39 cm.
CONCLUSION
There was strong agreement in lumenography between 3-D CEFUS and 3-D CTA. The interimage modality difference in plaque volumes was substantial because of challenging vessel wall definition in 3-D CTA. Three-dimensional CEFUS is viable in quantifying carotid plaque volume burden and can potentially monitor plaque development over time.
目的
动脉粥样硬化颈动脉的三维对比增强融合超声(CEFUS)提供了血管管腔的空间可视化,形成管腔成像。与三维计算机断层血管造影(CTA)一样,三维 CEFUS勾勒出充满对比剂的管腔。在三维 CEFUS 中区分斑块和血管轮廓,允许对斑块体积进行定量,作为颈动脉斑块负担的有效估计。三维 CEFUS 在模态间研究中尚未得到证实,证明了评估三维 CEFUS 适用性的合理性,并将三维 CEFUS 和三维 CTA 管腔成像作为概念验证研究进行比较。
方法
使用具有磁跟踪功能的超声系统、线性阵列换能器和 SonoVue 对比剂,通过连续二维图像的空间拼接生成三维 CEFUS 采集。从三维 CEFUS 和三维 CTA 成像中,在离线软件程序中使用管腔成像重建动脉粥样硬化颈动脉,用于管腔和斑块体积定量。 Bland-Altman 分析用于图像模态间的一致性分析。
结果
该研究纳入了 39 条颈动脉。三维 CEFUS 的平均管腔和斑块体积分别为 0.63cm(标准差 [SD]:0.26)和 0.62cm(SD:0.26)。三维 CEFUS 和三维 CTA 之间的管腔体积差异无统计学意义,平均差异为 0.01cm(SD:0.02,p=0.26),一致性界限(LoA)范围为±0.11cm。平均斑块体积差异为-0.12cm(SD:0.19,p=0.006),LoA 范围为±0.39cm。
结论
三维 CEFUS 和三维 CTA 之间的管腔成像具有很强的一致性。由于三维 CTA 中血管壁定义具有挑战性,斑块体积的图像模态间差异较大。三维 CEFUS 可用于定量颈动脉斑块体积负担,并且可以潜在地监测斑块随时间的发展。
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