肺静脉壁的超声特征:超声与组织学的相关性

J. Cabrera, D. Sánchez-Quintana, J. Farré, F. Navarro, J. Rubio, F. Cabestrero, Robert H. Anderson, S. Ho
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引用次数: 52

摘要

背景:肺静脉隔离与射频导管消融技术被用于预防人类房颤的复发。静脉房交界处结构的可视化对这些消融技术至关重要。我们的研究评估了血管内超声提供这一信息的潜力。方法与结果:从8例非心源性死亡患者中取出32条肺静脉。我们在每条静脉上间隔使用3.2F, 30 mhz超声导管获得横断面血管内超声(IVUS)图像。在间隔的组织学横截面允许与超声图像进行比较。静脉房交界处的肺静脉壁呈3层超声图。内回声层代表中膜内皮和结缔组织(平均最大厚度1.4±0.3 mm)。中间低回声层对应于左心房心肌的套筒,环绕着静脉介质的外部。这一层在静脉房交界处最厚(平均最大厚度为2.6±0.8 mm),向肺门方向减少。外回声致密层为纤维脂肪外膜组织(平均最大厚度2.15±0.36 mm)。使用Bland和Altman方法,我们发现IVUS和组织学测量的最大管腔直径(平均差值为- 0.12±1.3 mm)和最大肌肉厚度(平均差值为0.17±0.13 mm)非常吻合。结论:我们的实验研究首次证明了肺静脉IVUS图像可以提供心肌袖部远端界限和厚度的信息,并且可以作为一个有价值的工具来帮助在消融过程中精确定位。
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Ultrasonic Characterization of the Pulmonary Venous Wall: Echographic and Histological Correlation
Background—Pulmonary vein isolation with radiofrequency catheter ablation techniques is used to prevent recurrences of human atrial fibrillation. Visualization of the architecture at the venoatrial junction could be crucial for these ablative techniques. Our study assesses the potential for intravascular ultrasound to provide this information. Methods and Results—We retrieved 32 pulmonary veins from 8 patients dying from noncardiac causes. We obtained cross-sectional intravascular ultrasound (IVUS) images with a 3.2F, 30-MHz ultrasound catheter at intervals on each vein. Histological cross-sections at the intervals allowed comparisons with ultrasonic images. The pulmonary venous wall at the venoatrial junction revealed a 3-layered ultrasonic pattern. The inner echogenic layer represents both endothelium and connective tissue of the media (mean maximal thickness, 1.4±0.3 mm). The middle hypoechogenic stratum corresponds to the sleeves of left atrial myocardium surrounding the external aspect of the venous media. This layer was thickest at the venoatrial junction (mean maximal thickness, 2.6±0.8 mm) and decreased toward the lung hilum. The outer echodense layer corresponds to fibro-fatty adventitial tissue (mean maximal thickness, 2.15±0.36 mm). We found a close agreement among the IVUS and histological measurements for maximal luminal diameter (mean difference, −0.12±1.3 mm) and maximal muscular thickness (mean difference, 0.17±0.13 mm) using the Bland and Altman method. Conclusions—Our experimental study demonstrates for the first time that IVUS images of the pulmonary veins can provide information on the distal limits and thickness of the myocardial sleeves and can be a valuable tool to help accurate targeting during ablative procedures.
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