多厂商低管电压和双能CT在CTA中造影剂浓度优化的体模研究

Contrast agent concentration optimization in CTA using low tube voltage and dual-energy CT in multiple vendors: a phantom study.

作者信息

van Hamersvelt Robbert W, Eijsvoogel Nienke G, Mihl Casper, de Jong Pim A, Schilham Arnold M R, Buls Nico, Das Marco, Leiner Tim, Willemink Martin J

机构信息

Department of Radiology, University Medical Center Utrecht, Utrecht University, P. O. Box 85500, 3508 GA, Utrecht, The Netherlands.

Department of Radiology, Maastricht University Medical Center, Maastricht, The Netherlands.

出版信息

Int J Cardiovasc Imaging. 2018 Aug;34(8):1265-1275. doi: 10.1007/s10554-018-1329-x. Epub 2018 Mar 8.

DOI:10.1007/s10554-018-1329-x

PMID:29516228

Abstract

We investigated the feasibility and extent to which iodine concentration can be reduced in computed tomography angiography imaging of the aorta and coronary arteries using low tube voltage and virtual monochromatic imaging of 3 major dual-energy CT (DECT) vendors. A circulation phantom was imaged with dual source CT (DSCT), gemstone spectral imaging (GSI) and dual-layer spectral detector CT (SDCT). For each scanner, a reference scan was acquired at 120 kVp using routine iodine concentration (300 mg I/ml). Subsequently, scans were acquired at lowest possible tube potential (70, 80, 80 kVp, respectively), and DECT-mode (80/150Sn, 80/140 and 120 kVp, respectively) in arterial phase after administration of iodine (300, 240, 180, 120, 60, 30 mg I/ml). Objective image quality was evaluated using attenuation, CNR and dose corrected CNR (DCCNR) measured in the aorta and left main coronary artery. Average DCCNR at reference was 227.0, 39.7 and 60.2 for DSCT, GSI and SDCT. Maximum iodine concentration reduction without loss of DCCNR was feasible down to 180 mg I/ml (40% reduced) for DSCT (DCCNR 467.1) and GSI (DCCNR 46.1) using conventional CT low kVp, and 120 mg I/ml (60% reduced) for SDCT (DCCNR 171.5) using DECT mode. Low kVp scanning and DECT allows for 40-60% iodine reduction without loss in image quality compared to reference. Optimal scan protocol and to which extent varies per vendor. Further patient studies are needed to extend and translate our findings to clinical practice.

摘要

我们研究了使用低管电压以及3家主要双能CT（DECT）供应商的虚拟单色成像技术，在主动脉和冠状动脉的计算机断层血管造影成像中降低碘浓度的可行性及降低程度。使用双源CT（DSCT）、宝石能谱成像（GSI）和双层光谱探测器CT（SDCT）对循环体模进行成像。对于每台扫描仪，在120 kVp下使用常规碘浓度（300 mg I/ml）进行一次参考扫描。随后，在注射碘（300、240、180、120、60、30 mg I/ml）后的动脉期，分别以尽可能低的管电压（分别为70、80、80 kVp）以及DECT模式（分别为80/150Sn、80/140和120 kVp）进行扫描。使用在主动脉和左主干冠状动脉中测量的衰减、CNR和剂量校正CNR（DCCNR）来评估客观图像质量。DSCT、GSI和SDCT在参考扫描时的平均DCCNR分别为227.0、39.7和60.2。对于DSCT（DCCNR 467.1）和GSI（DCCNR 46.1），使用传统CT低kVp时，在不损失DCCNR的情况下，最大碘浓度可降低至180 mg I/ml（降低40%）；对于SDCT（DCCNR 171.5），使用DECT模式时，最大碘浓度可降低至120 mg I/ml（降低60%）。与参考扫描相比，低kVp扫描和DECT可减少40 - 60%的碘用量且不损失图像质量。最佳扫描方案因供应商而异。需要进一步开展患者研究，以将我们的研究结果扩展并转化为临床实践。

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多厂商低管电压和双能CT在CTA中造影剂浓度优化的体模研究

Contrast agent concentration optimization in CTA using low tube voltage and dual-energy CT in multiple vendors: a phantom study.

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