用于梗死成像的光谱CT优化能量：人体验证的实验性验证

Optimized energy of spectral CT for infarct imaging: Experimental validation with human validation.

作者信息

Sandfort Veit, Palanisamy Srikanth, Symons Rolf, Pourmorteza Amir, Ahlman Mark A, Rice Kelly, Thomas Tom, Davies-Venn Cynthia, Krauss Bernhard, Kwan Alan, Pandey Ankur, Zimmerman Stefan L, Bluemke David A

机构信息

Radiology and Imaging Sciences - National Institutes of Health Clinical Center, Bethesda, MD, USA.

ORS Division of Veterinary Resources, National Institutes of Health, Bethesda, MD, USA.

出版信息

J Cardiovasc Comput Tomogr. 2017 May-Jun;11(3):171-178. doi: 10.1016/j.jcct.2017.02.003. Epub 2017 Feb 11.

DOI:10.1016/j.jcct.2017.02.003

PMID:28229910

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5433893/

Abstract

OBJECTIVES

Late contrast enhancement visualizes myocardial infarction, but the contrast to noise ratio (CNR) is low using conventional CT. The aim of this study was to determine if spectral CT can improve imaging of myocardial infarction.

MATERIALS AND METHODS

A canine model of myocardial infarction was produced in 8 animals (90-min occlusion, reperfusion). Later, imaging was performed after contrast injection using CT at 90 kVp/150 kVpSn. The following reconstructions were evaluated: Single energy 90 kVp, mixed, iodine map, multiple monoenergetic conventional and monoenergetic noise optimized reconstructions. Regions of interest were measured in infarct and remote regions to calculate contrast to noise ratio (CNR) and Bhattacharya distance (a metric of the differentiation between regions). Blinded assessment of image quality was performed. The same reconstruction methods were applied to CT scans of four patients with known infarcts.

RESULTS

For animal studies, the highest CNR for infarct vs. myocardium was achieved in the lowest keV (40 keV) VMo images (CNR 4.42, IQR 3.64-5.53), which was superior to 90 kVp, mixed and iodine map (p = 0.008, p = 0.002, p < 0.001, respectively). Compared to 90 kVp and iodine map, the 40 keV VMo reconstructions showed significantly higher histogram separation (p = 0.042 and p < 0.0001, respectively). The VMo reconstructions showed the highest rate of excellent quality scores. A similar pattern was seen in human studies, with CNRs for infarct maximized at the lowest keV optimized reconstruction (CNR 4.44, IQR 2.86-5.94).

CONCLUSIONS

Dual energy in conjunction with noise-optimized monoenergetic post-processing improves CNR of myocardial infarct delineation by approximately 20-25%.

摘要

目的

延迟对比增强可显示心肌梗死，但传统CT的对比噪声比（CNR）较低。本研究的目的是确定光谱CT是否能改善心肌梗死的成像。

材料与方法

对8只动物制作心肌梗死犬模型（闭塞90分钟，再灌注）。之后，在注射对比剂后使用90 kVp/150 kVpSn的CT进行成像。评估了以下重建方式：单能量90 kVp、混合、碘图、多种单能传统重建和单能噪声优化重建。在梗死区和远隔区测量感兴趣区，以计算对比噪声比（CNR）和巴塔查里亚距离（区域间差异的一种度量）。对图像质量进行盲法评估。将相同的重建方法应用于4例已知梗死患者的CT扫描。

结果

在动物研究中，梗死灶与心肌的最高CNR出现在最低keV（40 keV）的VMo图像中（CNR 4.42，四分位间距3.64 - 5.53），优于90 kVp、混合和碘图（分别为p = 0.008、p = 0.002、p < 0.001）。与90 kVp和碘图相比，40 keV的VMo重建显示出显著更高的直方图分离度（分别为p = 0.042和p < 0.0001）。VMo重建显示出最高的优秀质量评分率。在人体研究中也观察到类似模式，梗死灶的CNR在最低keV优化重建时达到最大值（CNR 4.44，四分位间距2.86 - 5.94）。

结论

双能量结合噪声优化的单能后处理可将心肌梗死轮廓的CNR提高约20% - 25%。

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