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基于钨对比剂的光子计数 CT:管腔及斑块可视化的实验证据。

Photon-counting CT with tungsten as contrast medium: Experimental evidence of vessel lumen and plaque visualization.

机构信息

Institute of Diagnostic and Interventional Radiology, University Hospital Zurich, University of Zurich, Switzerland.

Department of Pathology, University Hospital Zurich, University of Zurich, Switzerland.

出版信息

Atherosclerosis. 2020 Oct;310:11-16. doi: 10.1016/j.atherosclerosis.2020.07.023. Epub 2020 Aug 5.

DOI:10.1016/j.atherosclerosis.2020.07.023
PMID:32861961
Abstract

BACKGROUND AND AIMS

We aimed to investigate the potential of a preclinical photon-counting detector CT (PCT) scanner with an experimental tungsten-based contrast medium for carotid artery imaging.

METHODS

A carotid artery specimen was imaged on a PCT system using the multi-energy bin option (pixel size 0.5 × 0.5 mm; tube voltage 140 kVp, contrast media-dependent energy thresholds: iodine 20, 75 keV; tungsten 20, 68 keV) at two radiation doses (CTDI of 100 mGy and 10 mGy) with iodine and tungsten as contrast media at equal mass-concentrations. Standard CT, virtual non-calcium (VNCa) and calcium-only images were reconstructed. Subjective image quality (4-point Likert scale) was rated using histology as reference. Noise and attenuation measurements were performed. Simulations were conducted to assess the material-decomposition efficiency for different object diameters.

RESULTS

Image quality on VNCa images was significantly higher for tungsten at lower dose (reader 1/reader 2: 2, [2,2]/2, [2,2] vs 1.5, [2,1]/1, [1,1.75], p < 0.05). Noise was significantly lower at both dose levels for tungsten VNCa images as compared to iodine images (higher dose: tungsten 24 vs iodine 31; lower dose: tungsten 60 vs iodine 82; both p < 0.01). Simulations indicated improved material-decomposition efficiency for tungsten than for iodine pronounced at smaller object diameters.

CONCLUSIONS

PCT employing the multi-energy bin option in combination with tungsten as contrast media enables improved carotid artery imaging with respect to lumen and plaque visualization and image noise.

摘要

背景和目的

我们旨在研究一种具有实验性钨基对比剂的临床前光子计数探测器 CT(PCT)扫描仪在颈动脉成像中的潜力。

方法

使用多能量-bin 选项(像素大小 0.5×0.5 毫米;管电压 140 kVp,对比剂依赖性能量阈值:碘 20、75 keV;钨 20、68 keV),在两种辐射剂量(CTDI 为 100 mGy 和 10 mGy)下,对颈动脉标本进行 PCT 系统成像,碘和钨以相等的质量浓度作为对比剂。重建标准 CT、虚拟非钙(VNCa)和仅钙图像。使用组织学作为参考,对主观图像质量(4 分李克特量表)进行评分。进行噪声和衰减测量。进行模拟以评估不同物体直径的材料分解效率。

结果

在较低剂量下,钨的 VNCa 图像的图像质量明显更高(读者 1/读者 2:2,[2,2]/2,[2,2] 与 1.5,[2,1]/1,[1,1.75],p<0.05)。与碘图像相比,钨的 VNCa 图像在两种剂量水平下的噪声均显著降低(高剂量:钨 24 比碘 31;低剂量:钨 60 比碘 82;均 p<0.01)。模拟表明,与碘相比,钨的材料分解效率在较小的物体直径下显著提高。

结论

采用多能量-bin 选项结合钨作为对比剂的 PCT 能够改善颈动脉成像,在管腔和斑块可视化以及图像噪声方面。

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