摘要编号-169:评估机械血栓切除术中支架-血栓相互作用的术中血管造影标志

IF 2.1 Q3 CLINICAL NEUROLOGY
T. Imahori, S. Tateshima, N. Kaneko
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引用次数: 0

摘要

闭塞性血块的特性影响支架回收器(SR)的血块整合。这种支架-血栓相互作用的关系被认为是机械取栓技术成功的主要因素。迄今为止,大量的研究分析了回收的血块,表明软的富含红细胞的血块和硬的富含纤维蛋白的血块都使血块回收具有挑战性。一些研究已经成功地利用三维(3D)旋转血管造影获得了这种相互作用的信息。然而,由于图像采集和处理的耗时性,这些3D成像技术尚未在临床实践中得到应用。我们之前的临床研究表明,通过常规二维血管造影获得的展开支架形态的血管造影结果可以预测再通(1)。闭塞处较大的支架扩张与手术后再通密切相关。这种术中血管造影标志使我们能够实时了解血栓的硬度,并选择最佳技术。本研究的目的是评估通过二维血管造影图像评估的支架扩张是否反映了支架在闭塞处的实际扩张(图)。我们使用实验遮挡模型研究了部署的SR的2D图像和3D结构之间的相关性。使用具有9个硬度等级(n = 3/凝块类型)的伪凝块创建闭塞模型,通过锥形束计算机断层扫描获得部署的Trevo SR图像。作为二维图像的测量指标,我们使用沿设备长轴的平面获得的支架膨胀程度。然而,在临床实践中,这种2 - D图像通常是从一个视角获得的。因此,为了研究观察角度测量的差异,我们制作了不同角度的二维图像来评估支架的扩张情况。对于三维结构,我们使用从血管模型的短轴平面获得的支架面积,将其作为实际支架扩张的替代。我们评估了二维图像与三维结构之间的相关性。共获得27组模型图像集,显示根据血栓类型,支架逐渐扩张(范围:21-79%)。各模型在不同角度测量的支架扩张度的中位数变化为9%(范围:5-20%),即观察角度的差异。支架扩张度中位数与支架面积呈强相关(Pearson’s系数:0.98),说明支架扩张度能够反映三维结构。本研究表明,即使从一个方向评估,2D血管造影上的支架扩张也可以作为闭塞处支架实际扩张的近似值。该血管造影征象提供闭塞处血块特征的实时反馈。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Abstract Number ‐ 169: Intraprocedural angiographic sign for assessing the stent‐clot interaction during mechanical thrombectomy
The characteristics of the occlusive clot affect the clot integration with a stent retriever (SR). This relationship, stent‐clot interaction, is considered to be a major factor in the technical success of mechanical thrombectomy. To date, numerous studies analyzing the retrieved clots have shown that both soft erythro‐rich clots and hard fibrin‐rich clots make clot retrieval challenging. Several studies have successfully obtained information on this interaction using three‐dimensional (3D) rotational angiography. However, these 3D imaging technologies have not been utilized in clinical practice due to the time‐consuming nature of image acquisition and processing. Our previous clinical study demonstrated that the angiographic findings about the deployed stent morphology obtained from conventional two‐dimensional (2D) angiography could predict recanalization (1). The greater stent expansion at the occlusion was strongly associated with recanalization after the procedure. This intraprocedural angiographic sign allows us to know the stiffness of the clots in real‐time and to choose the optimal technique. The purpose of this study was to evaluate whether the stent expansion assessed by a 2D angiographical image reflects the actual stent dilation at the occlusion (Figure). We investigated the correlations between 2D images and 3D structures of the deployed SR using an experimental occlusion model. Using occlusion models created with pseudo‐clot with 9 hardness levels (n = 3/clot type), images of the deployed Trevo SR were obtained by cone‐beam computed tomography.As the measurement metric for the 2D images, we used the degree of stent expansion obtained from a plane along the long axis of the device. In clinical practice, however, this 2‐D image is usually obtained from one viewing angle. Therefore, to investigate the difference in measurement by viewing angle, different angle 2D images were created to evaluate the stent expansion. For the 3D structures, we used the stent area obtained from the short‐axis plane of the vascular model, considering this as a surrogate for actual stent expansion. We evaluated the correlation between the 2D images and the 3D structure. A total of 27 model image sets were obtained, showing graduated stent expansion (range: 21–79%) depending on the clot type. The median variation in the degree of stent expansion for each model measured at different angles, which means the differences by viewing angles, was 9% (range: 5–20%). The median degree of stent expansion was strongly correlated with the stent area (Pearson’s coefficient: 0.98), indicating that the degree of stent expansion could reflect the 3D structure. This study showed that the stent expansion on 2D angiography, even assessed from one direction, could be used as the approximation of the actual stent dilatation at the occlusion. This angiographic sign provides real‐time feedback on the clot characteristics at the occlusion.
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