光子计数 CT：冠状动脉支架的高分辨率成像。

Photon-Counting CT: High-Resolution Imaging of Coronary Stents.

出版信息

Invest Radiol. 2018 Mar;53(3):143-149. doi: 10.1097/RLI.0000000000000420.

Abstract

PURPOSE

The aim of this study was to investigate computed tomography (CT) imaging characteristics of coronary stents using a novel photon-counting detector (PCD) in comparison with a conventional energy-integrating detector (EID).

MATERIALS AND METHODS

In this in vitro study, 18 different coronary stents were expanded in plastic tubes of 3 mm diameter, were filled with contrast agent (diluted to an attenuation of 250 Hounsfield units [HU] at 120 kVp), and were sealed. Stents were placed in an oil-filled custom phantom calibrated to an attenuation of -100 HU at 120 kVp for resembling pericardial fat. The phantom was positioned in the gantry at 2 different angles at 0 degree and 90 degrees relative to the z axis, and was imaged in a research dual-source PCD-CT scanner. Detector subsystem "A" used a standard 64-row EID, while detector subsystem "B" used a PCD, allowing high-resolution scanning (detector pixel-size 0.250 × 0.250 mm in the isocenter). Images were obtained from both detector systems at identical tube voltage (100 kVp) and tube current-time product (100 mA), and were both reconstructed using a typical convolution kernel for stent imaging (B46f) and using the same reconstruction parameters. Two independent, blinded readers evaluated in-stent visibility and measured noise, intraluminal stent diameter, and in-stent attenuation for each detector subsystem. Differences in noise, intraluminal stent diameter, and in-stent attenuation where tested using a paired t test; differences in subjective in-stent visibility were evaluated using a Wilcoxon signed-rank test.

RESULTS

Best results for in-stent visibility, noise, intraluminal stent diameter, and in-stent attenuation in EID and PCD were observed at 0-degree phantom position along the z axis, suggesting higher in-plane compared with through-plane resolution. Subjective in-stent visibility was superior in coronary stent images obtained from PCD compared with EID (P < 0.001). Mean in-stent diameter was 28.8% and 8.4% greater in PCD (0.85 ± 0.24 mm; 0.83 ± 0.14 mm) as compared with EID acquisitions (0.66 ± 0.21 mm; 0.76 ± 0.13 mm) for both 0-degree and 90-degree phantom positions, respectively. Average noise was significantly lower (P < 0.001) for PCD (5 ± 0.2 HU) compared with EID (8.3 ± 0.2 HU). The increase in in-stent attenuation (0 degree: Δ 245 ± 163 HU vs Δ 156.5 ± 126 HU; P = 0.006; 90 degrees: Δ 194 ± 141 HU vs Δ 126 ± 78 HU; P = 0.001) was significantly lower for PCD compared with EID acquisitions.

CONCLUSIONS

At matched CT scan protocol settings and identical image reconstruction parameters, the PCD yields superior in-stent lumen delineation of coronary artery stents as compared with conventional EID arrays.

摘要

目的

本研究旨在使用新型光子计数探测器（PCD）与传统能量积分探测器（EID）比较，研究冠状动脉支架的计算机断层扫描（CT）成像特征。

材料和方法

在这项体外研究中，将 18 种不同的冠状动脉支架扩张在直径为 3 毫米的塑料管中，并用对比剂填充（在 120 kVp 时稀释至 250 亨氏单位[HU]的衰减），并密封。将支架放置在一个充满油的定制体模中，在 120 kVp 时校准为-100 HU 的衰减，以模拟心包脂肪。体模以 0 度和 90 度相对于 z 轴的 2 个不同角度放置在机架中，并在研究用双源 PCD-CT 扫描仪中进行成像。探测器子系统“ A”使用标准的 64 排 EID，而探测器子系统“ B”使用 PCD，允许高分辨率扫描（在等中心处探测器像素尺寸为 0.250×0.250 毫米）。从两个探测器系统在相同的管电压（100 kVp）和管电流-时间乘积（100 mA）下获得图像，并均使用典型的支架成像卷积核（B46f）和相同的重建参数进行重建。两名独立的、盲目的读者评估了每个探测器子系统的支架内可视性和测量噪声、管腔内支架直径和支架内衰减。使用配对 t 检验测试噪声、管腔内支架直径和支架内衰减的差异；使用 Wilcoxon 符号秩检验评估主观支架内可视性的差异。

结果

在 z 轴上沿 0 度体模位置观察到 EID 和 PCD 的支架内可视性、噪声、管腔内支架直径和支架内衰减的最佳结果，表明与平面内相比具有更高的平面分辨率。与 EID 相比，PCD 获得的冠状动脉支架图像的主观支架内可视性更优（P<0.001）。0 度和 90 度体模位置的 PCD 采集的支架直径分别比 EID 采集的支架直径大 28.8%和 8.4%（分别为 0.85±0.24 毫米和 0.83±0.14 毫米）。平均噪声显著低于 PCD（5±0.2 HU）（P<0.001）比 EID（8.3±0.2 HU）。与 EID 采集相比，支架内衰减的增加（0 度：Δ245±163 HU 与 Δ156.5±126 HU；P=0.006；90 度：Δ194±141 HU 与 Δ126±78 HU；P=0.001）在 PCD 中明显较低。