Three-dimensional reconstruction of the coronary artery wall by image fusion of intravascular ultrasound and bi-plane angiography.

International journal of cardiac imaging Pub Date : 2000-04-01 DOI:10.1023/a:1006304419505

R M Cothren, R Shekhar, E M Tuzcu, S E Nissen, J F Cornhill, D G Vince

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引用次数: 43

Abstract

Background: Intravascular ultrasound (IVUS) is becoming increasingly accepted for assessing coronary anatomy. However, its utility in visualizing and quantifying coronary morphology has been limited by its 2D tomographic nature. This study presents a 3D reconstruction technique that accurately preserves 3D geometric information.

Methods and results: Images obtained from manual IVUS pullbacks and continuous bi-plane angiography were fused, using angiography to reconstruct the transducer trajectory and aid in solving for the correct rotational orientation. A novel 3D active surface method automatically identified the luminal and medial-adventitial borders which, when superimposed on the transducer trajectory, could be surface-rendered for visualization and morphometry. Segmentation agreed well with manual assessment, and 3D luminal shape matched that of angiography when projected to 2D.

Conclusions: We conclude that this method provides an accurate reconstruction of the vessel's anatomy, which accounts for the true curvature of the vessel.

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血管内超声与双平面血管造影图像融合的冠状动脉壁三维重建。

背景:血管内超声(IVUS)越来越多地被接受用于评估冠状动脉解剖。然而，它在可视化和定量冠脉形态方面的应用受到其二维层析性质的限制。本研究提出了一种精确保留三维几何信息的三维重建技术。方法和结果:将人工IVUS回拉和连续双平面血管造影图像融合，利用血管造影重建换能器轨迹并帮助解决正确的旋转方向。一种新颖的三维活动曲面方法可以自动识别腔内边界和内外边界，当这些边界叠加在传感器轨迹上时，可以进行表面渲染以实现可视化和形态测量。分割结果与人工评估结果吻合较好，3D管腔形状与2D血管造影结果吻合。结论:我们得出结论，这种方法提供了血管解剖的准确重建，这说明了血管的真实曲率。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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International journal of cardiac imaging

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