使用心脏动态模型进行衰减校正的研究:同步时相门控衰减校正法。

IF 1 Q4 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING
N. Hara, M. Onoguchi, Hiroyuki Kawaguchi, Noriko Matsushima, Osamu Houjou, Masakazu Murai, Kohei Nakano, Wakana Makino
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引用次数: 0

摘要

在心脏核医学检查中,人体吸收是导致图像质量下降的主要因素。Chang 和外部源方法被用来校正体内吸收。然而,关于心电图(ECG)同步 CT 成像衰减校正的基础研究尚未开展。因此,我们开发并改进了心电图同步的心脏动态模型,并利用心电图同步的 SPECT 和同一时间相位的 CT 图像研究了同步时相门控衰减校正(STPGAC)方法。研究方法作为基础研究,使用同步时相门控(STPG)SPECT 和非时相门控(NPG)SPECT 进行了研究。衰减校正后的图像包括:第一,与门控 SPECT 采集的心电图波形时相相同的 CT 图像(以 CT 采集的心电图波形为参考);第二,心电图不同步的 CT 图像;第三,75% 区域的 CT 图像;第四,40% 区域的 CT 图像。结果在模型实验的心功能分析中,CT 图像中的左心室射血分数(心率,11.5%-13.4%;心肌壁,49.8%-55.7%)与 STPGAC 方法中的左心室射血分数(心率,11.5%-13.3%;心肌壁,49.6%-55.5%)进行了比较,后者的值更接近 STPGAC 方法的值。在幻影极坐标图片段分析中,所有图像均未显示变异性(F (10,10) < 0.5,P = 0.05)。所有图像都具有相关性(r = 0.824-1.00)。结论在这项研究中,我们使用 SPECT/CT 系统研究了 STPGAC 方法。STPGAC 方法的心功能分析值与 CT 图像相似,表明 STPGAC 方法能准确重建心肌区域的血流分布。不过,心脏区域的衰减校正目标区域小于全身区域,改变门控 SPECT 条件和衰减校正图像并不影响心肌血流分析。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Study of Attenuation Correction Using a Cardiac Dynamic Phantom: Synchronized Time-Phase-Gated Attenuation Correction Method.
In cardiac nuclear medicine examinations, absorption in the body is the main factor in the degradation of the image quality. The Chang and external source methods were used to correct for absorption in the body. However, fundamental studies on attenuation correction for electrocardiogram (ECG)-synchronized CT imaging have not been performed. Therefore, we developed and improved an ECG-synchronized cardiac dynamic phantom and investigated the synchronized time-phase-gated attenuation correction (STPGAC) method using ECG-synchronized SPECT and CT images of the same time phase. Methods: As a basic study, SPECT was performed using synchronized time-phase-gated (STPG) SPECT and non-phase-gated (NPG) SPECT. The attenuation-corrected images were, first, CT images with the same time phase as the ECG waveform of the gated SPECT acquisition (with CT images with the ECG waveform of the CT acquisition as the reference); second, CT images with asynchronous ECG; third, CT images of the 75% region; and fourth, CT images of the 40% region. Results: In the analysis of cardiac function in the phantom experiment, left ventricle ejection fraction (heart rate, 11.5%-13.4%; myocardial wall, 49.8%-55.7%) in the CT images was compared with that in the STPGAC method (heart rate, 11.5%-13.3%; myocardial wall, 49.6%-55.5%), which was closer in value to that of the STPGAC method. In the phantom polar map segment analyses, none of the images showed variability (F (10,10) < 0.5, P = 0.05). All images were correlated (r = 0.824-1.00). Conclusion: In this study, we investigated the STPGAC method using a SPECT/CT system. The STPGAC method showed similar values of cardiac function analysis to the CT images, suggesting that the STPGAC method accurately reconstructed the distribution of blood flow in the myocardial region. However, the target area for attenuation correction of the heart region was smaller than that of the whole body, and changing the gated SPECT conditions and attenuation-corrected images did not affect myocardial blood flow analysis.
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来源期刊
Journal of nuclear medicine technology
Journal of nuclear medicine technology RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING-
CiteScore
1.90
自引率
15.40%
发文量
57
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