对比剂注射方案优化在双能冠状动脉 CT 血管造影中的应用：循环体模研究结果。

Contrast media injection protocol optimization for dual-energy coronary CT angiography: results from a circulation phantom.

机构信息

Division of Cardiovascular Imaging, Department of Radiology and Radiological Science, Medical University of South Carolina, 25 Courtenay Drive, Charleston, SC, USA.

Department of Radiological Sciences, Oncological and Pathological Sciences University of Rome "Sapienza", Latina, Italy.

出版信息

Eur Radiol. 2018 Aug;28(8):3473-3481. doi: 10.1007/s00330-018-5308-3. Epub 2018 Feb 27.

DOI:10.1007/s00330-018-5308-3

PMID:29488083

Abstract

OBJECTIVES

To investigate the minimum iodine delivery rate (IDR) required to achieve diagnostic coronary attenuation (300 HU) with dual-energy coronary CTA.

METHODS

Acquisitions were performed on a circulation phantom with a third- generation dual-source CT scanner. Contrast media was injected for a fixed time whilst IDRs varied from 1.0 to 0.3 gI/s in 0.1-gI/s intervals. Noise-optimized virtual monoenergetic imaging (VMI+) reconstructions from 40 to 90 keV in 5 keV increments were generated. Contrast-to-noise ratio (CNR) and coronary HU were measured for each injection.

RESULTS

VMI+ from 40-70 keV reached diagnostic attenuation with at least one IDR. The minimum IDR achieving a diagnostic attenuation ranged from 0.4 gI/s at 40 keV (312.8 HU) to 1.0 gI/s at 70 keV (334.1 HU). Attenuation values reached with IDR of 1.0 gI/s were significantly higher at each keV level (p<0.001). CNR showed a near perfect correlation with the IDR (ρ≥0.962; p<0.001), the IDR of 1.0 gI/s provided the highest CNR at each keV level, achieving the highest overall value at 40 keV (54.0±3.1).

CONCLUSIONS

IDRs from 0.4-1.0 gI/s associated with VMI+ from 40-70 keV provide diagnostic coronary attenuation with dual-energy coronary CTA.

KEY POINTS

• Iodine delivery rate (IDR) is a major determinant of contrast enhancement. • Low-keV noise-optimized monoenergetic images (VMI+) maximize iodine attenuation. • Low-keV VMI+ allows for lower IDRs while maintaining adequate coronary attenuation. • Lowest IDR to reach 300 HU was 0.4 gI/s, 40 keV VMI+.

摘要

目的

研究双能冠状动脉 CTA 实现诊断性冠状动脉衰减（300HU）所需的最小碘输送率（IDR）。

方法

使用第三代双源 CT 扫描仪对循环模型进行采集。在固定时间内注入造影剂，而 IDR 则以 0.1gI/s 的间隔从 1.0 变化到 0.3gI/s。生成 40 至 90keV 以 5keV 为增量的噪声优化虚拟单能量成像（VMI+）重建。测量每次注射的对比噪声比（CNR）和冠状动脉 HU。

结果

40-70keV 的 VMI+至少使用一个 IDR 达到诊断性衰减。实现诊断性衰减的最小 IDR 范围从 40keV 时的 0.4gI/s（312.8HU）到 70keV 时的 1.0gI/s（334.1HU）。在每个 keV 水平下，IDR 为 1.0gI/s 时的衰减值显著更高（p<0.001）。CNR 与 IDR 呈近乎完美的相关性（ρ≥0.962；p<0.001），IDR 为 1.0gI/s 在每个 keV 水平下提供了最高的 CNR，在 40keV 时达到了最高的总体值（54.0±3.1）。

结论

与 40-70keV 的 VMI+相关的 0.4-1.0gI/s 的 IDR 可提供双能冠状动脉 CTA 的诊断性冠状动脉衰减。

关键点

碘输送率（IDR）是对比增强的主要决定因素。
低 keV 噪声优化单能量图像（VMI+）最大化碘衰减。
低 keV VMI+允许使用更低的 IDR 同时保持足够的冠状动脉衰减。
达到 300HU 的最低 IDR 为 0.4gI/s，40keV VMI+。

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对比剂注射方案优化在双能冠状动脉 CT 血管造影中的应用：循环体模研究结果。

Contrast media injection protocol optimization for dual-energy coronary CT angiography: results from a circulation phantom.

机构信息

出版信息

OBJECTIVES

METHODS

RESULTS

CONCLUSIONS

KEY POINTS

目的

方法

结果

结论

关键点

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