应用能谱外推的双能 CT 降低金属伪影：一项系统优化的方案。

Metal artifact reduction by dual-energy computed tomography using energetic extrapolation: a systematically optimized protocol.

机构信息

Department of Clinical Radiology, Ludwig Maximilians-University, Munich, Germany.

出版信息

Invest Radiol. 2012 Jul;47(7):406-14. doi: 10.1097/RLI.0b013e31824c86a3.

DOI:10.1097/RLI.0b013e31824c86a3

PMID:22659595

Abstract

OBJECTIVES

Energetic extrapolation is a promising strategy to reduce metal artifacts in dual-source computed tomography (DSCT). We performed this study to systematically optimize image acquisition parameters for this approach in a hip phantom and assess its value in a clinical study.

MATERIALS AND METHODS

Titanium and steel hip prostheses were placed in a standard hip phantom and a water tank and scanned on a DSCT scanner. Tube spectra, tube current ratio, collimation, pitch, and rotation time were optimized in a stepwise process. Artifacts were quantified by measuring the standard deviation of the computed tomography density in a doughnut-shaped region of interest placed around the prosthesis. A total of 22 adult individuals with metallic implants referred for computed tomography for a musculoskeletal indication were scanned using the optimized protocol. Degree of artifacts and diagnostic image quality were rated visually (0-10) and maximum streak intensity was measured.

RESULTS

Sn140/100 kVp proved superior to Sn140/80 kVp. There was a benefit for increasing tube current ratio from 1:1 to 3:1, but not beyond, in favor of the Sn140 kVp spectrum. Artifacts were less severe for a collimation of 32 × 0.6 mm as compared with 40 × 0.6 mm. A pitch of 0.5 at a rotation time of 0.5 seconds per rotation was preferable to other combinations with comparable scanning times. In the clinical study, increasing the extrapolated photon energy from 64 to 120 keV decreased the severity of artifacts from 8.0 to 2.0 (P < 0.001) and decreased streak intensity from 871 to 153 HU (P < 0.001). The median diagnostic image quality rating improved from 2.5 to 8.0 (P < 0.001). The median energy level visually perceived as optimal for diagnostic evaluation was 113 keV (range, 100-130 keV).

CONCLUSIONS

Sn140/100 kVp with a tube current ratio of 3:1, a collimation of 32 × 0.6 mm, and extrapolated energies of 105 to 120 keV are optimal parameters for a dedicated DSCT protocol that effectively reduces metal artifacts by energetic extrapolation. The protocol effectively reduces metal artifacts in all types of metal implants. The optimized reconstructions yielded relevant additional findings.

摘要

目的

能量外推是一种降低双源 CT（DSCT）金属伪影的有前途的策略。我们在髋关节模型和临床研究中进行了这项研究，旨在系统地优化该方法的图像采集参数。

材料和方法

将钛和钢髋关节假体分别放置在标准髋关节模型和水箱中，在 DSCT 扫描仪上进行扫描。采用逐步法优化管谱、管电流比、准直、螺距和旋转时间。通过在假体周围的环形感兴趣区测量计算的 CT 密度的标准差来量化伪影。共对 22 名因肌肉骨骼指征而接受 CT 检查的有金属植入物的成年个体使用优化的方案进行了扫描。通过视觉（0-10）评分和最大条纹强度测量评估伪影程度和诊断图像质量。

结果

Sn140/100 kVp 优于 Sn140/80 kVp。管电流比从 1:1 增加到 3:1 有好处，但超过 3:1 则不利于 Sn140 kVp 谱。与 40×0.6mm 相比，32×0.6mm 的准直度可降低伪影的严重程度。在 0.5 秒/转的旋转时间下，0.5 的螺距与其他具有可比扫描时间的组合相比更可取。在临床研究中，将外推光子能量从 64keV 增加到 120keV，可将伪影的严重程度从 8.0 降低至 2.0（P<0.001），条纹强度从 871HU 降低至 153HU（P<0.001）。诊断图像质量评分中位数从 2.5 提高到 8.0（P<0.001）。视觉上可接受的最佳诊断评估能量水平为 113keV（范围 100-130keV）。