Live ultrasound-based particle visualization of blood flow in the heart

Proceedings of the 30th Spring Conference on Computer Graphics Pub Date : 2014-05-28 DOI:10.1145/2643188.2643200

Paolo Angelelli, S. Snare, H. Hauser, S. Nyrnes, L. Løvstakken, S. Bruckner

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引用次数: 10

Abstract

We introduce an integrated method for the acquisition, processing and visualization of live, in-vivo blood flow in the heart. The method is based on ultrasound imaging, using a plane wave acquisition acquisition protocol, which produces high frame rate ensemble data that are efficiently processed to extract directional flow information not previously available based on conventional Doppler imaging. These data are then visualized using a tailored pathlet-based visualization approach, to convey the slice-contained dynamic movement of the blood in the heart. This is especially important when imaging patients with possible congenital heart diseases, who typically exhibit complex flow patterns that are challenging to interpret. With this approach, it now is possible for the first time to achieve a real-time integration-based visualization of 2D blood flow aspects based on ultrasonic imaging. We demonstrate our solution in the context of selected cases of congenital heart diseases in neonates, showing how our technique allows for a more accurate and intuitive visualization of shunt flow and vortices.

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基于实时超声的心脏血流粒子可视化

我们介绍了一种集成的方法来获取，处理和可视化的活的，在体内的血液流动的心脏。该方法基于超声成像，使用平面波采集协议，产生高帧率的集合数据，有效处理提取定向流信息，这是以前基于传统多普勒成像无法获得的。然后，使用定制的基于板片的可视化方法将这些数据可视化，以传达包含在切片中的心脏血液动态运动。这在对可能患有先天性心脏病的患者进行成像时尤其重要，这些患者通常表现出复杂的血流模式，难以解释。通过这种方法，现在有可能首次实现基于超声成像的二维血流方面的实时集成可视化。我们在新生儿先天性心脏病的选定病例中展示了我们的解决方案，展示了我们的技术如何允许更准确和直观的分流流和漩涡可视化。

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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Proceedings of the 30th Spring Conference on Computer Graphics

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