Segmentation and reconstruction of cerebral vessels from 3D Rotational Angiography for AVM embolization planning

机译：用于AVM栓塞计划的3D旋转血管造影对脑血管进行分割和重建

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Diagnosis and computer-guided therapy of cerebral Arterio-Venous Malformations (AVM) require an accurate understanding of the cerebral vascular network both from structural and biomechanical point of view. We propose to obtain such information by analyzing three Dimensional Rotational Angiography (3DRA) images. In this paper, we describe a two-step process allowing 1) the 3D automatic segmentation of cerebral vessels from 3DRA images using a region-growing based algorithm and 2) the reconstruction of the segmented vessels using the 3D constrained Delaunay Triangulation method. The proposed algorithm was successfully applied to reconstruct cerebral blood vessels from ten datasets of 3DRA images. This software allows the neuroradiologist to separately analyze cerebral vessels for pre-operative interventions planning and therapeutic decision making.

机译：脑动静脉畸形（AVM）的诊断和计算机指导治疗需要从结构和生物力学的角度准确了解脑血管网络。我们建议通过分析三维旋转血管造影（3DRA）图像来获取此类信息。在本文中，我们描述了一个分两步的过程，该过程允许1）使用基于区域增长的算法从3DRA图像对脑血管进行3D自动分割，以及2）使用3D约束Delaunay三角剖分方法重建分割后的血管。所提出的算法已成功地用于从10个3DRA图像数据集中重建脑血管。该软件允许神经放射科医生单独分析脑血管，以进行术前干预计划和治疗决策。

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《Annual International Conference of the IEEE Engineering in Medicine and Biology Society》|2014年|5522-5525|共4页
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Li Fan; Chenoune Yasmina; Ouenniche Meriem; Blanc Raphael; Petit Eric;
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Image reconstruction; Image segmentation; Medical diagnostic imaging; Surface morphology; Three-dimensional displays; Visualization;

机译：图像重建;图像分割;医学诊断成像;表面形态;三维显示;可视化;

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1. Virtual 3D IVUS vessel model for intravascular brachytherapy planning. I. 3D segmentation, reconstruction, and visualization of coronary artery architecture and orientation. [J] . Weichert F, Muller H, Quast U, Medical Physics . 2003,第9期

机译：用于血管内近距离治疗计划的虚拟3D IVUS血管模型。 I.冠状动脉结构和方向的3D分割，重建和可视化。
2. Using flow information to support 3D vessel reconstruction from rotational angiography. [J] . Waechter I, Bredno J, Weese J, Medical Physics . 2008,第7期

机译：使用流量信息支持从旋转血管造影术重建3D血管。
3. Flow prediction in cerebral aneurysms based on geometry reconstruction from 3D rotational angiography [J] . J. Mikhal, D. J. Kroon, C. H. Slump, Communications in Numerical Methods in Engineering . 2013,第7期

机译：基于3D旋转血管造影的几何重建的脑动脉瘤流量预测
4. Determination of vascular geometry and flow velocity in cerebral arteriovenous malformations (AVMs) using double contrast and high-speed digital subtraction angiography [C] . B. B. Lieber, A. K. Wakhloo, A. Divani, ASME international mechanical engineering congress and exposition . 1998

机译：使用双对比度和高速数字减法血管造影测定脑动静态畸形（AVMS）中血管几何和流速的测定
5. Computed rotational angiography: Use of C-arm-mounted XRII for three-dimensional imaging of intracranial vessels during neurointerventional procedures. [D] . Fahrig, Rebecca. 1999

机译：计算机旋转血管造影：在神经介入手术过程中，使用C型臂XRII对颅内血管进行三维成像。
6. Fully automated tissue segmentation of the prescription isodose region delineated through the Gamma knife plan for cerebral arteriovenous malformation (AVM) using fuzzy C-means (FCM) clustering [O] . Syu-Jyun Peng, Cheng-chia Lee, Hsiu-Mei Wu, 2019

机译：通过模糊C均值（FCM）聚类的Gamma刀计划对脑动静脉畸形（AVM）划定的处方等剂量区域进行全自动组织分割
7. 3D reconstruction of cerebral blood flow and vessel morphology from X-ray rotational angiography [O] . Wächter I 2009

机译：X射线血管造影三维重建脑血流和血管形态

Segmentation and reconstruction of cerebral vessels from 3D Rotational Angiography for AVM embolization planning

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