基于活体冠状动脉血管内超声径向应变序列的动脉粥样硬化斑块弹性重建的四项标准选择程序。
A four-criterion selection procedure for atherosclerotic plaque elasticity reconstruction based on in vivo coronary intravascular ultrasound radial strain sequences.
机构信息
Laboratory TIMC-IMAG/DyCTiM, UJF, CNRS UMR 5525, Grenoble, France.
出版信息
Ultrasound Med Biol. 2012 Dec;38(12):2084-97. doi: 10.1016/j.ultrasmedbio.2012.07.021.
Abstract
Plaque elasticity (i.e., modulogram) and morphology are good predictors of plaque vulnerability. Recently, our group developed an intravascular ultrasound (IVUS) elasticity reconstruction method which was successfully implemented in vitro using vessel phantoms. In vivo IVUS modulography, however, remains a major challenge as the motion of the heart prevents accurate strain field estimation. We therefore designed a technique to extract accurate strain fields and modulograms from recorded IVUS sequences. We identified a set of four criteria based on tissue overlapping, RF-correlation coefficient between two successive frames, performance of the elasticity reconstruction method to recover the measured radial strain, and reproducibility of the computed modulograms over the cardiac cycle. This four-criterion selection procedure (4-CSP) was successfully tested on IVUS sequences obtained in twelve patients referred for a directional coronary atherectomy intervention. This study demonstrates the potential of the IVUS modulography technique based on the proposed 4-CSP to detect vulnerable plaques in vivo.
摘要
斑块弹性(即调制图)和形态是斑块易损性的良好预测指标。最近,我们小组开发了一种血管内超声(IVUS)弹性重建方法,该方法已成功在血管模型中进行了体外验证。然而,由于心脏的运动导致难以准确估计应变场,体内 IVUS 调制图仍然是一个主要挑战。因此,我们设计了一种从记录的 IVUS 序列中提取准确应变场和调制图的技术。我们基于组织重叠、两个连续帧之间的 RF 相关系数、弹性重建方法恢复测量的径向应变的性能以及计算出的调制图在心动周期内的可重复性,确定了一组四项标准。该四项标准选择程序(4-CSP)已成功应用于 12 例接受定向冠状动脉旋切术干预的患者的 IVUS 序列中。这项研究证明了基于所提出的 4-CSP 的 IVUS 调制图技术在体内检测易损斑块的潜力。
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