应用极速超声的冠状动脉无创成像。

Noninvasive Imaging of the Coronary Vasculature Using Ultrafast Ultrasound.

机构信息

Institut Langevin, ESPCI ParisTech, CNRS UMR 7587, INSERM U979, Paris, France.

出版信息

JACC Cardiovasc Imaging. 2018 Jun;11(6):798-808. doi: 10.1016/j.jcmg.2017.05.021. Epub 2017 Aug 16.

DOI:10.1016/j.jcmg.2017.05.021

PMID:28823737

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5784807/

Abstract

OBJECTIVES

The aim of this study was to investigate the potential of coronary ultrafast Doppler angiography (CUDA), a novel vascular imaging technique based on ultrafast ultrasound, to image noninvasively with high sensitivity the intramyocardial coronary vasculature and quantify the coronary blood flow dynamics.

BACKGROUND

Noninvasive coronary imaging techniques are currently limited to the observation of the epicardial coronary arteries. However, many studies have highlighted the importance of the coronary microcirculation and microvascular disease.

METHODS

CUDA was performed in vivo in open-chest procedures in 9 swine. Ultrafast plane-wave imaging at 2,000 frames/s was combined to an adaptive spatiotemporal filtering to achieve ultrahigh-sensitive imaging of the coronary blood flows. Quantification of the flow change was performed during hyperemia after a 30-s left anterior descending (LAD) artery occlusion followed by reperfusion and was compared to gold standard measurements provided by a flowmeter probe placed at a proximal location on the LAD (n = 5). Coronary flow reserve was assessed during intravenous perfusion of adenosine. Vascular damages were evaluated during a second set of experiments in which the LAD was occluded for 90 min, followed by 150 min of reperfusion to induce myocardial infarction (n = 3). Finally, the transthoracic feasibility of CUDA was assessed on 2 adult and 2 pediatric volunteers.

RESULTS

Ultrahigh-sensitive cine loops of venous and arterial intramyocardial blood flows were obtained within 1 cardiac cycle. Quantification of the coronary flow changes during hyperemia was in good agreement with gold standard measurements (r = 0.89), as well as the assessment of coronary flow reserve (2.35 ± 0.65 vs. 2.28 ± 0.84; p = NS). On the infarcted animals, CUDA images revealed the presence of strong hyperemia and the appearance of abnormal coronary vessel structures in the reperfused LAD territory. Finally, the feasibility of transthoracic coronary vasculature imaging was shown on 4 human volunteers.

CONCLUSIONS

Ultrafast Doppler imaging can map the coronary vasculature with high sensitivity and quantify intramural coronary blood flow changes.

摘要

目的

本研究旨在探索一种基于超快速超声的新型血管成像技术——冠状动脉超快多普勒血管造影术（CUDA），以无创、高敏感的方式对心肌内冠状动脉血管进行成像，并定量评估冠状动脉血流动力学。

背景

目前，非侵入性冠状动脉成像技术仅限于观察心外膜冠状动脉。然而，许多研究强调了冠状动脉微循环和微血管疾病的重要性。

方法

在 9 头开放胸廓猪的活体模型中进行 CUDA。采用 2000 帧/秒的超快速平面波成像，并结合自适应时空滤波，实现对冠状动脉血流的超高灵敏度成像。在左前降支（LAD）闭塞 30 秒后再灌注引起的充血过程中，进行流量变化的定量评估，并与放置在 LAD 近端位置的流量计探头提供的金标准测量值进行比较（n=5）。通过静脉内注射腺苷评估冠状动脉血流储备。在第二次实验中，LAD 闭塞 90 分钟，再灌注 150 分钟以诱导心肌梗死（n=3），评估血管损伤。最后，在 2 名成年志愿者和 2 名儿科志愿者中评估 CUDA 的经胸可行性。

结果

在 1 个心动周期内获得了静脉和动脉心肌内血流的超高灵敏度电影循环。充血过程中冠状动脉流量变化的定量评估与金标准测量值（r=0.89）高度一致，并且能够评估冠状动脉血流储备（2.35±0.65 与 2.28±0.84；p=NS）。在梗死动物中，CUDA 图像显示再灌注 LAD 区域存在强烈充血和异常冠状动脉血管结构的出现。最后，在 4 名人类志愿者中证明了经胸冠状动脉血管成像的可行性。

结论

超快速多普勒成像可以高灵敏度地描绘冠状动脉血管，并定量评估壁内冠状动脉血流变化。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d60f/5995404/8d64d7203d04/fx1.jpg

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应用极速超声的冠状动脉无创成像。

Noninvasive Imaging of the Coronary Vasculature Using Ultrafast Ultrasound.

机构信息

出版信息

OBJECTIVES

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

目的

背景

方法

结果

结论

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