Marwan Mohamed, Pflederer Tobias, Schepis Tiziano, Seltmann Martin, Ropers Dieter, Daniel Werner G, Achenbach Stephan
Department of Cardiology, University of Erlangen, Erlangen, Germany.
J Comput Assist Tomogr. 2011 Jan-Feb;35(1):113-8. doi: 10.1097/RCT.0b013e3181f7cb30.
Image display settings (window and level) have a substantial impact on measurements of coronary artery and plaque dimensions in computed tomography (CT), and their influence on measurement accuracy has not been systematically evaluated. We analyzed the influence of window width/level settings on the accuracy for determining cross-sectional lumen and outer vessel diameters in contrast-enhanced CT angiography compared with intravascular ultrasound (IVUS).
We evaluated the data sets of 35 patients. Coronary CT angiography was performed as part of a research protocol before invasive coronary angiography. A contrast-enhanced volume data set was acquired using a dual-source CT (DSCT) scanner (Siemens Healthcare, Forchheim, Germany). Intravascular ultrasound was performed using a 40-MHz IVUS catheter (Atlantis, Boston Scientific Corporation, Natick, Mass) and motorized pullback at 0.5 mm/s. One hundred exactly corresponding sites within the coronary artery system were identified in both DSCT and IVUS using bifurcation points as fiducial markers. In DSCT data sets, multiplanar reconstructions (0.75-mm slice thickness) were rendered orthogonally to the centerline of the coronary artery at each of the 100 sites. Computed tomographic images were displayed using 4 previously published settings (700/200, 700/140, and 500/150 Hounsfield units [HU], and 1 HU/65% of the mean luminal intensity [HU] and 155%/65% of the mean luminal intensity [HU] for window width/level) as well as with a visually adjusted setting for subjectively optimal lumen and outer vessel area measurement. Coronary lumen and cross-sectional vessel areas were manually traced using all 5 display settings and compared with IVUS measurements.
Concerning cross-sectional vessel area measurements, correlation was close and significant compared with IVUS using all settings (r ≥ 0.93, P = 0.01 for all settings). Bland-Altman analysis revealed a good agreement between both modalities with a systematic bias toward overestimation in CT. Least bias was demonstrated using the setting 155%/65% of the mean luminal intensity for window width/level, with a mean (SD) difference of 0.2 (1.73) mm2. For the measurement of the luminal area, the window setting using a width of 1 HU and a level of 65% of the mean luminal intensity showed the lowest correlation to IVUS (r = 0.85), with a systematic bias toward underestimation of the lumen in CT. Bland-Altman analysis revealed a moderate agreement with a mean (SD) difference of -2.1 (1.6) mm2. For all other settings, a very close correlation was observed (r > 0.9, P = 0.01), and Bland-Altman analysis revealed a slight trend toward lumen underestimation in CT, yet with a good agreement. The least bias was demonstrated using the setting 700/200 HU for window width/level with a mean (SD) difference of -0.1 (0.9) mm2.
Previously published window settings and visually adjusted window setting correlate very well with IVUS measurements regarding coronary artery cross-sectional and luminal area, with a better agreement for luminal area measurements. A systematic bias toward overestimation of vessel area in CT was observed as well as a slight trend toward lumen underestimation. This bias was least for vessel area measurement using 155%/65% of the mean luminal intensity (HU) for window width/level, whereas for luminal area measurement, the setting 700/200 HU for window width/level yielded the least bias.
图像显示设置(窗宽和窗位)对计算机断层扫描(CT)中冠状动脉和斑块尺寸的测量有重大影响,但其对测量准确性的影响尚未得到系统评估。我们分析了与血管内超声(IVUS)相比,窗宽/窗位设置对对比增强CT血管造影中确定横截面管腔和血管外径准确性的影响。
我们评估了35例患者的数据集。冠状动脉CT血管造影作为侵入性冠状动脉造影前研究方案的一部分进行。使用双源CT(DSCT)扫描仪(德国福希海姆西门子医疗公司)获取对比增强容积数据集。使用40MHz的IVUS导管(美国马萨诸塞州纳蒂克市波士顿科学公司的Atlantis)并以0.5mm/s的速度进行电动回撤来进行血管内超声检查。以分叉点作为基准标记,在DSCT和IVUS中确定冠状动脉系统内100个完全对应的部位。在DSCT数据集中,在这100个部位的每一个处,与冠状动脉中心线正交进行多平面重建(层厚0.75mm)。使用4种先前公布的设置(700/200、700/140和500/150亨氏单位[HU],以及窗宽/窗位分别为1HU/平均管腔强度的65%[HU]和平均管腔强度的155%/65%[HU])以及视觉调整后的设置来显示CT图像,以主观上优化管腔和血管外面积的测量。使用所有5种显示设置手动描绘冠状动脉管腔和横截面血管面积,并与IVUS测量值进行比较。
关于横截面血管面积测量,与IVUS相比,使用所有设置时相关性紧密且显著(所有设置r≥0.93,P = 0.01)。Bland-Altman分析显示两种方法之间具有良好的一致性,但CT存在系统性高估偏差。使用窗宽/窗位为平均管腔强度的155%/65%的设置时偏差最小,平均(标准差)差值为0.2(1.73)mm²。对于管腔面积测量,使用宽度为1HU且窗位为平均管腔强度65%的窗设置与IVUS的相关性最低(r = 0.85),CT中存在系统性低估管腔的偏差。Bland-Altman分析显示一致性中等,平均(标准差)差值为-2.1(1.6)mm²。对于所有其他设置,观察到相关性非常紧密(r>0.9,P = 0.01),Bland-Altman分析显示CT中存在轻微的管腔低估趋势,但一致性良好。使用窗宽/窗位为700/200HU的设置时偏差最小,平均(标准差)差值为-0.1(0.9)mm²。
先前公布的窗设置和视觉调整后的窗设置在冠状动脉横截面和管腔面积方面与IVUS测量值相关性非常好,在管腔面积测量方面一致性更好。观察到CT中存在系统性高估血管面积的偏差以及轻微的管腔低估趋势。对于血管面积测量,使用窗宽/窗位为平均管腔强度的155%/65%(HU)时偏差最小,而对于管腔面积测量,窗宽/窗位为700/200HU时偏差最小。
