Kitagawa Toshiro, Yamamoto Hideya, Horiguchi Jun, Hirai Nobuhiko, Fujii Takashi, Ito Katsuhide, Kohno Nobuoki
Int J Cardiol. 2008 Feb 29;124(2):239-43. doi: 10.1016/j.ijcard.2006.11.231. Epub 2007 Mar 23.
A method to objectively detect in-stent restenosis (ISR) with multi-slice computed tomography (MSCT) has not been established yet. We aimed to evaluate the usefulness of measuring coronary lumen density with MSCT to detect ISR.
Forty-seven coronary stented lesions in 38 patients were evaluated with 16-slice CT (collimation thickness, 0.625 mm). In each assessable lesion, the stent lumen was visually evaluated, and reference CT density proximal to the stent (RCTD) and minimum CT density of the in-stent lumen (SCTD) were measured. ISR was defined as >50% diameter stenosis measured by quantitative coronary angiography (QCA).
Of 47 stented lesions, 35 (74%) were assessable, and there were 12 ISR (+) and 23 ISR (-) lesions. Mean DeltaCTD (RCTD-SCTD) of the ISR (+) group was significantly greater than that of the ISR (-) group (196+/-101 vs. 7+/-30 HU, p<0.001). Predictive accuracy of quantitative evaluation of ISR using our best cutoff value of DeltaCTD was higher than that of visual evaluation (97% vs. 83%, p<0.05). The DeltaCTD showed a higher correlation with percent diameter stenosis (r=0.85, p<0.001) than with SCTD (r=-0.73, p<0.001).
Measuring differences of CT densities between reference vessel lumens and in-stent lumens using MSCT is a convenient and useful technique to detect ISR.
尚未建立一种利用多层螺旋计算机断层扫描(MSCT)客观检测支架内再狭窄(ISR)的方法。我们旨在评估通过MSCT测量冠状动脉管腔密度以检测ISR的实用性。
对38例患者的47个冠状动脉支架植入病变进行16层CT(准直厚度0.625mm)评估。在每个可评估病变中,对支架管腔进行视觉评估,并测量支架近端的参考CT密度(RCTD)和支架内管腔的最小CT密度(SCTD)。ISR定义为通过定量冠状动脉造影(QCA)测量的直径狭窄>50%。
47个支架植入病变中,35个(74%)可评估,其中有12个ISR(+)病变和23个ISR(-)病变。ISR(+)组的平均DeltaCTD(RCTD-SCTD)显著高于ISR(-)组(196±101 vs. 7±30 HU,p<0.001)。使用我们最佳的DeltaCTD截断值对ISR进行定量评估的预测准确性高于视觉评估(97% vs. 83%,p<0.05)。DeltaCTD与直径狭窄百分比的相关性(r=0.85,p<0.001)高于与SCTD的相关性(r=-0.73,p<0.001)。
利用MSCT测量参考血管管腔与支架内管腔之间的CT密度差异是一种检测ISR的便捷且有用的技术。
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