Bourantas Christos V, Papafaklis Michail I, Athanasiou Lambros, Kalatzis Fanis G, Naka Katerina K, Siogkas Panagiotis K, Takahashi Saeko, Saito Shigeru, Fotiadis Dimitrios I, Feldman Charles L, Stone Peter H, Michalis Lampros K
Department of Cardiology, Academic Unit, University of Hull, Kingston-upon-Hull, United Kingdom.
EuroIntervention. 2013 Sep;9(5):582-93. doi: 10.4244/EIJV9I5A94.
To develop and validate a new methodology that allows accurate 3-dimensional (3-D) coronary artery reconstruction using standard, simple angiographic and intravascular ultrasound (IVUS) data acquired during routine catheterisation enabling reliable assessment of the endothelial shear stress (ESS) distribution.
Twenty-two patients (22 arteries: 7 LAD; 7 LCx; 8 RCA) who underwent angiography and IVUS examination were included. The acquired data were used for 3-D reconstruction using a conventional method and a new methodology that utilised the luminal 3-D centreline to place the detected IVUS borders and anatomical landmarks to estimate their orientation. The local ESS distribution was assessed by computational fluid dynamics. In corresponding consecutive 3 mm segments, lumen, plaque and ESS measurements in the 3-D models derived by the centreline approach were highly correlated to those derived from the conventional method (r>0.98 for all). The centreline methodology had a 99.5% diagnostic accuracy for identifying segments exposed to low ESS and provided similar estimations to the conventional method for the association between the change in plaque burden and ESS (centreline method: slope= -1.65%/Pa, p=0.078; conventional method: slope= -1.64%/Pa, p=0.084; p =0.69 for difference between the two methodologies).
The centreline methodology provides geometrically correct models and permits reliable ESS computation. The ability to utilise data acquired during routine coronary angiography and IVUS examination will facilitate clinical investigation of the role of local ESS patterns in the natural history of coronary atherosclerosis.
开发并验证一种新方法,该方法能够利用常规导管插入术期间获取的标准、简单的血管造影和血管内超声(IVUS)数据进行精确的三维(3-D)冠状动脉重建,从而可靠地评估内皮剪切应力(ESS)分布。
纳入22例接受血管造影和IVUS检查的患者(22条动脉:7条左前降支;7条左旋支;8条右冠状动脉)。所获取的数据用于使用传统方法和一种新方法进行3-D重建,新方法利用管腔三维中心线来放置检测到的IVUS边界和解剖标志以估计其方向。通过计算流体动力学评估局部ESS分布。在相应连续的3毫米节段中,中心线方法得出的3-D模型中的管腔、斑块和ESS测量值与传统方法得出的测量值高度相关(所有r>0.98)。中心线方法在识别暴露于低ESS的节段方面具有99.5%的诊断准确性,并且在斑块负荷变化与ESS之间的关联方面提供了与传统方法相似的估计(中心线方法:斜率=-1.65%/Pa,p=0.078;传统方法:斜率=-1.64%/Pa,p=0.084;两种方法之间的差异p=0.69)。
中心线方法提供了几何形状正确的模型,并允许进行可靠的ESS计算。利用常规冠状动脉造影和IVUS检查期间获取的数据的能力将有助于临床研究局部ESS模式在冠状动脉粥样硬化自然病程中的作用。
