Yang Qiuxia, Peng Sheng, Wu Jing, Ban Xiaohua, He Mingyan, Xie Chuanmiao, Zhang Rong
State Key Laboratory of Oncology in South China, Department of Medical Imaging and Minimally Invasive Interventional Center, Sun Yat-sen University Cancer Center, 651 Dongfeng Road East, Guangzhou, Guangdong, 510060, People's Republic of China.
Jpn J Radiol. 2015 Nov;33(11):694-705. doi: 10.1007/s11604-015-0482-6. Epub 2015 Oct 11.
To investigate the optimal monochromatic energy for artifacts reduction from (125)I seeds as well as image improvement in the vicinity of seeds on monochromatic images with and without metal artifacts reduction software (MARS) and to compare this with traditional 120-kVp images, so as to evaluate the application value of gemstone spectral imaging for reducing artifacts from (125)I seeds in liver brachytherapy.
A total of 45 tumors from 25 patients treated with (125)I seed brachytherapy in the liver were enrolled in this study. Multiphasic spectral computed tomography (CT) scanning was performed for each patient. After a delay time of 15 s of portal vein phase, a traditional 120-kVp scan was performed, focusing on several planes of (125)I seeds only. The artifact index (AI) in the vicinity of seeds and the standard deviation (SD) of the CT density of region of interest in the outside liver parenchyma were calculated. Artifact appearance was evaluated and classified on reconstructed monochromatic S and 120-kVp images. Image quality in the vicinity of seeds of three data sets were evaluated using a 1-5 scale scoring method. The Friedman rank-sum test was used to estimate the scoring results of image quality.
The greatest noise in monochromatic images was found at 40 keV (SD = 27.38, AI = 206.40). The optimal monochromatic energy was found at 75 keV, which provided almost the least image noise (SD = 10.01) and good performance in artifact reduction (AI = 102.73). Image noise and AI reduction at 75 keV was decreased by 63.44 and 50.23%, compared with at 40 keV. Near-field thick artifacts were obvious in all 45 lesions, in 120-kVp images, and 75-keV images, but basically reduced in 75 keV MARS images and artifacts completely invisible in 7 lesions. The number of diagnosable images (score ≥3) was significantly more in the 75-keV MARS group (28/45), and the 75-keV group (22/45) than in the 120-kVp group (11/45) (p < 0.0167 for both). Compared with 120-kVp images alone, 75-keV images plus 75-keV MARS images can increase tumor visibility around seeds and increase the proportion of diagnostic images to 84.4% (38/45).
Spectral CT producing 75-keV MARS images could substantially reduce near-field thick artifacts caused by (125)I seeds and improve image quality, even to a state of being completely free from artifacts. Spectral CT imaging (with and without MARS) can provide more accurate CT images for estimating efficacy after (125)I seed brachytherapy in the liver.
研究用于减少¹²⁵I粒子伪影以及在有无金属伪影减少软件(MARS)的单色图像上改善粒子附近图像的最佳单色能量,并将其与传统的120 kVp图像进行比较,以评估宝石光谱成像在减少肝脏近距离放射治疗中¹²⁵I粒子伪影方面的应用价值。
本研究纳入了25例接受肝脏¹²⁵I粒子近距离放射治疗的患者的45个肿瘤。对每位患者进行多期光谱计算机断层扫描(CT)。在门静脉期延迟15秒后,仅对几个含有¹²⁵I粒子的层面进行传统的120 kVp扫描。计算粒子附近的伪影指数(AI)以及肝实质外感兴趣区域CT密度的标准差(SD)。在重建的单色S图像和120 kVp图像上评估并分类伪影表现。使用1-5级评分法评估三个数据集粒子附近的图像质量。采用Friedman秩和检验估计图像质量的评分结果。
在40 keV时发现单色图像中的噪声最大(SD = 27.38,AI = 206.40)。最佳单色能量为75 keV,其提供了几乎最少的图像噪声(SD = 10.01)且在伪影减少方面表现良好(AI = 102.73)。与40 keV相比,75 keV时的图像噪声和AI降低分别达63.44%和50.23%。在所有45个病灶中,120 kVp图像和75 keV图像中近场厚伪影均明显,但在75 keV MARS图像中基本减少,7个病灶中的伪影完全不可见。75 keV MARS组(28/45)和75 keV组(22/45)中可诊断图像(评分≥3)的数量显著多于120 kVp组(11/45)(两者p均<0.0167)。与单独的120 kVp图像相比,75 keV图像加75 keV MARS图像可增加粒子周围肿瘤的可视性,并将诊断图像的比例提高到84.4%(38/45)。
产生75 keV MARS图像的光谱CT可大幅减少¹²⁵I粒子引起的近场厚伪影并改善图像质量,甚至达到完全无伪影的状态。光谱CT成像(有无MARS)可为评估肝脏¹²⁵I粒子近距离放射治疗后的疗效提供更准确的CT图像。
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