Department of Radiology, Peking Union Medical College Hospital, Chinese Academy of Medical Sciences, Beijing, China.
Eur J Radiol. 2008 Dec;68(3):434-41. doi: 10.1016/j.ejrad.2008.09.011. Epub 2008 Nov 6.
To evaluate the performance of dual-source computed tomography (DSCT) for the visualization of the coronary arteries in a population with atrial fibrillation (AF) compared to single-source CT (SSCT) and to explore the impact of patients' heart rate (HR) on image quality (IQ) and reconstruction timing.
Thirty consecutive patients (11 male, 19 female; 69.0+/-9.2 years old) with suspected coronary artery disease and permanent AF were examined on a DSCT scanner (120 kV, 400 mAs/rot, 0.33 s rotation time, 64 x 0.6 mm collimation, pitch 0.20-0.28, Siemens Somatom Definition). Patients were divided into two groups: low and medium HR group (HR<or=80 bpm, n=14) and high HR group (HR>80 bpm, n=16). Five of the patients also underwent conventional coronary angiography (CAG). The raw data from both tube detector arrays were reconstructed as DSCT data using a routine algorithm (temporal resolution of 83 ms). The raw data from one tube detector array was reconstructed separately on the same system using a routine single source algorithm (temporal resolution of 83-165 ms) and defined as virtual SSCT data. Image quality was assessed using a four-point grading scale from excellent (1) to non-assessable (4).
IQ of the DSCT data was significantly better than that of the virtual SSCT data (mean score 1.33+/-0.61 vs. 1.80+/-1.02; Z=-8.755, P=0.000). 98.6% of the segments shown in DSCT were diagnostic, compared with 89.9% of the segments in virtual SSCT, chi(2)=32.595, P=0.000. In DSCT group, IQ of low HR group was also better than that of high HR group, although the difference was not as big (mean score 1.25+/-0.52 vs. 1.38+/-0.66; Z=-2.227, P=0.026). The mean HR of low HR group and high HR group were 67.4+/-8.5 beats per minute (bpm) and 94.2+/-8.8 bpm (t=-8.499, P=0.000). The range of the variation of HR was higher in high HR group than in low HR group (mean difference between maximum and minimum HR 79.5+/-21.0 vs. 49.9+/-21.1 bpm; t=-3.845, P=0.001). In 23 (77%) patients optimal IQ was achieved within one phase for all three main arteries. In low HR group, the optimal phase was distributed evenly between diastole and systole; but in high HR group, the optimal phase shifted to systole in most cases (92%). In five cases these results were compared to CAG results to look for the ability to identify stenosis with a diameter reduction of more than 50% of the lumen. With DSCT it was possible to diagnose 20 of 21 stenosis and 48 of 49 non-stenosed vessel segments correctly. With SSCT 19 of 21 stenosis and 45 of 49 non-stenosed vessel segments were diagnosed correctly according to CAG.
Due to its high temporal resolution, DSCT provides images of full diagnostic image quality in patients with AF, which otherwise would be excluded from CT examinations. The number of assessable segments for DSCT is still somewhat less than in non-AF patients, but in opposition to SSCT still valid for routine diagnostic imaging. Patients' HR had impact on IQ and reconstruction timing.
评估双源 CT(DSCT)在心房颤动(AF)患者冠状动脉成像中的性能,与单源 CT(SSCT)进行比较,并探讨患者心率(HR)对图像质量(IQ)和重建时间的影响。
连续 30 例疑似冠心病且持续 AF 的患者(男 11 例,女 19 例;69.0±9.2 岁)在 DSCT 扫描仪(120 kV,400 mAs/旋转,0.33 秒旋转时间,64×0.6mm 准直,螺距 0.20-0.28,西门子 Somatom Definition)上进行检查。患者分为两组:低中 HR 组(HR≤80 次/分,n=14)和高 HR 组(HR>80 次/分,n=16)。其中 5 例患者还接受了常规冠状动脉造影(CAG)。使用常规算法(83ms 的时间分辨率)重建两个管探测器阵列的原始数据作为 DSCT 数据。使用相同系统的常规单源算法(83-165ms 的时间分辨率)单独重建一个管探测器阵列的原始数据,并定义为虚拟 SSCT 数据。使用 4 分制评分标准从极好(1)到无法评估(4)评估图像质量。
DSCT 数据的 IQ 明显优于虚拟 SSCT 数据(平均评分 1.33±0.61 与 1.80±1.02;Z=-8.755,P=0.000)。在 DSCT 中,98.6%的节段可诊断,而在虚拟 SSCT 中,89.9%的节段可诊断,卡方检验=32.595,P=0.000。在 DSCT 组中,低 HR 组的 IQ 也优于高 HR 组,尽管差异不大(平均评分 1.25±0.52 与 1.38±0.66;Z=-2.227,P=0.026)。低 HR 组和高 HR 组的平均 HR 分别为 67.4±8.5 次/分和 94.2±8.8 次/分(t=-8.499,P=0.000)。高 HR 组 HR 的变化范围高于低 HR 组(最大 HR 与最小 HR 之间的平均差异 79.5±21.0 与 49.9±21.1 次/分;t=-3.845,P=0.001)。在 23 例(77%)患者中,所有 3 支主要动脉均在一个相位内获得最佳 IQ。在低 HR 组中,最佳相位在舒张期和收缩期之间均匀分布;但在高 HR 组中,最佳相位在大多数情况下转移到收缩期(92%)。在 5 例患者中,将这些结果与 CAG 结果进行比较,以寻找识别狭窄程度大于管腔 50%的能力。DSCT 可以正确诊断 21 个狭窄中的 20 个和 49 个非狭窄血管段中的 48 个。根据 CAG,SSCT 可以正确诊断 21 个狭窄中的 19 个和 49 个非狭窄血管段中的 45 个。
由于具有高时间分辨率,DSCT 可为 AF 患者提供具有充分诊断图像质量的图像,否则这些患者将被排除在 CT 检查之外。DSCT 可评估的节段数量仍略低于非 AF 患者,但与 SSCT 相比,仍可用于常规诊断成像。患者的 HR 对 IQ 和重建时间有影响。
