用于钙化冠状动脉光子计数探测器 CT 血管造影的钨基造影剂:在心血管模型中与碘对比。

IF 7 1区 医学 Q1 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING Investigative Radiology Pub Date : 2024-10-01 Epub Date: 2024-03-25 DOI:10.1097/RLI.0000000000001073
Thomas Sartoretti, Michael C McDermott, Lion Stammen, Bibi Martens, Lukas J Moser, Gregor Jost, Hubertus Pietsch, Ralf Gutjahr, Tristan Nowak, Bernhard Schmidt, Thomas G Flohr, Joachim E Wildberger, Hatem Alkadhi
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引用次数: 0

摘要

目的:钙化斑块会在冠状动脉计算机断层扫描血管造影(CCTA)中产生花斑伪影,可能导致血管狭窄评估不准确。钨是一种高原子序数的实验造影剂,其物理性质与碘不同。我们探索了钨基造影剂在重度钙化冠状动脉血管中用于光子计数探测器(PCD)CCTA 的潜力:在第一代双源 PCD-CT 上对一个心血管模型进行成像,该模型显示了冠状动脉钙化斑块。在带有 3 个不同钙化斑块的冠状动脉中分别注入碘和钨造影剂溶液,碘和钨的输送率(IDR 和 TDR)分别为 0.3、0.5、0.7、1.0、1.5、2.0、2.5 和 3.0 g/s。心电图触发的顺序采集在光谱模式(QuantumPlus)下进行。虚拟单能图像(VMI)以 1 keV 为增量从 40 到 190 keV 进行重建。对钙化斑块产生的出血伪影和狭窄百分比误差进行了量化,并记录了两种造影剂的衰减特性:结果:钙化斑块产生的开花伪影在 40 keV 时最明显(78%),在 190 keV 时最不明显(58%)。同样,狭窄的误差百分比在 40 千伏时最高(48%),在 190 千伏时最低(2%)。碘的衰减在 VMI 中从低到高 keV 单调下降,从 40 keV 到 100 keV 的下降幅度最大(2.5 g/s 的 IDR:40 keV 为 1279 HU,100 kV 为 187 HU,190 keV 为 35 HU)。另一方面,钨的衰减随 VMI 能量的增加而单调增加,在 40 至 100 千伏之间的增幅最大(2.5 克/秒的 TDR:40 千伏时为 202 HU,100 千伏时为 661 HU,190 千伏时为 717 HU)。在每个千伏级,衰减和 IDR/TDR 之间的关系都可以用线性回归来描述(R2 ≥ 0.88,P < 0.001)。具体地说,无论keV水平或造影剂如何,当递送速率增加时,衰减都呈线性增加。当增加 IDR 时,碘在较低 keV 水平上的衰减值相对增幅最大。相反,对于钨,当增加 TDR 时,衰减值的最大相对增幅出现在较高的 keV 水平。当需要高KeV成像以减少钙化斑块产生的花斑伪影时,必须在较高的KeV水平下增加IDR以保持诊断血管的衰减(即300 HU),而对于钨,TDR可以保持不变,甚至可以在高KeV能量水平下降低:结论:钨的衰减特性与 VMI 能量水平的关系与碘相反,钨在高 keV 能量水平时表现出高衰减值,反之亦然。因此,钨有望用于 PCD-CT 的高千伏成像 CCTA,因为与碘不同的是,钨可以实现高血管衰减和低钙化斑块产生的花斑伪影。
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Tungsten-Based Contrast Agent for Photon-Counting Detector CT Angiography in Calcified Coronaries: Comparison to Iodine in a Cardiovascular Phantom.

Objectives: Calcified plaques induce blooming artifacts in coronary computed tomography angiography (CCTA) potentially leading to inaccurate stenosis evaluation. Tungsten represents a high atomic number, experimental contrast agent with different physical properties than iodine. We explored the potential of a tungsten-based contrast agent for photon-counting detector (PCD) CCTA in heavily calcified coronary vessels.

Materials and methods: A cardiovascular phantom exhibiting coronaries with calcified plaques was imaged on a first-generation dual-source PCD-CT. The coronaries with 3 different calcified plaques were filled with iodine and tungsten contrast media solutions equating to iodine and tungsten delivery rates (IDR and TDR) of 0.3, 0.5, 0.7, 1.0, 1.5, 2.0, 2.5, and 3.0 g/s, respectively. Electrocardiogram-triggered sequential acquisitions were performed in the spectral mode (QuantumPlus). Virtual monoenergetic images (VMIs) were reconstructed from 40 to 190 keV in 1 keV increments. Blooming artifacts and percentage error stenoses from calcified plaques were quantified, and attenuation characteristics of both contrast media were recorded.

Results: Blooming artifacts from calcified plaques were most pronounced at 40 keV (78%) and least pronounced at 190 keV (58%). Similarly, percentage error stenoses were highest at 40 keV (48%) and lowest at 190 keV (2%), respectively. Attenuation of iodine decreased monotonically in VMIs from low to high keV, with the strongest decrease from 40 keV to 100 keV (IDR of 2.5 g/s: 1279 HU at 40 keV, 187 HU at 100 kV, and 35 HU at 190 keV). The attenuation of tungsten, on the other hand, increased monotonically as a function of VMI energy, with the strongest increase between 40 and 100 keV (TDR of 2.5 g/s: 202 HU at 40 keV, 661 HU at 100 kV, and 717 HU at 190 keV). For each keV level, the relationship between attenuation and IDR/TDR could be described by linear regressions ( R2 ≥ 0.88, P < 0.001). Specifically, attenuation increased linearly when increasing the delivery rate irrespective of keV level or contrast medium. Iodine exhibited the highest relative increase in attenuation values at lower keV levels when increasing the IDR. Conversely, for tungsten, the greatest relative increase in attenuation values occurred at higher keV levels when increasing the TDR. When high keV imaging is desirable to reduce blooming artifacts from calcified plaques, IDR has to be increased at higher keV levels to maintain diagnostic vessel attenuation (ie, 300 HU), whereas for tungsten, TDR can be kept constant or can be even reduced at high keV energy levels.

Conclusions: Tungsten's attenuation characteristics in relation to VMI energy levels are reversed to those of iodine, with tungsten exhibiting high attenuation values at high keV levels and vice versa. Thus, tungsten shows promise for high keV imaging CCTA with PCD-CT as-in distinction to iodine-both high vessel attenuation and low blooming artifacts from calcified plaques can be achieved.

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来源期刊
Investigative Radiology
Investigative Radiology 医学-核医学
CiteScore
15.10
自引率
16.40%
发文量
188
审稿时长
4-8 weeks
期刊介绍: Investigative Radiology publishes original, peer-reviewed reports on clinical and laboratory investigations in diagnostic imaging, the diagnostic use of radioactive isotopes, computed tomography, positron emission tomography, magnetic resonance imaging, ultrasound, digital subtraction angiography, and related modalities. Emphasis is on early and timely publication. Primarily research-oriented, the journal also includes a wide variety of features of interest to clinical radiologists.
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