Integrating Structural MRI and DTI in Brain Deformation Simulation for Image-Guided Neurosurgery

Shizheng Zhang; Zhong Xue Stephen T.C. Wong

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Integrating Structural MRI and DTI in Brain Deformation Simulation for Image-Guided Neurosurgery

机译：集成结构MRI和DTI在脑图像模拟神经外科手术中的模拟

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In image-guided neurosurgery, pre-operative magnetic resonance (MR) images can be fused with intra-operative ones to enhance visualization and navigation to determine the resection margin. However, intra-operative brain deformation, after opening the skull, greatly degrades accurate matching between these images. Although direct registering these images aims to address such a deformation problem, simulating brain shifts can potentially improve registration accuracy, hi this paper, we introduce the biomechanical finite element model (FEM) to compute brain deformation such as parenchyma, tumor, ventricle and white matter shifts during craniotomy using both MRI and diffusion tensor images (DTI).

机译：在图像引导的神经外科手术中，可以将术前磁共振（MR）图像与术中磁共振图像融合，以增强可视化和导航，以确定切除范围。但是，打开颅骨后，术中大脑变形会大大降低这些图像之间的精确匹配。尽管直接配准这些图像旨在解决此类变形问题，但是模拟脑部移动可以潜在地提高配准精度。在本文中，我们引入了生物力学有限元模型（FEM）来计算诸如实质，肿瘤，心室和白质等脑部变形使用MRI和扩散张量图像（DTI）进行开颅手术时的移位。

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《Recent patents on medical imaging.》 |2015年第2期|共7页
作者
Shizheng Zhang; Zhong Xue Stephen T.C. Wong;
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正文语种 eng
中图分类影像诊断学;
关键词
Brain deformation; diffusion tenser imaging (DTI); finite-element model; image guided neurosurgery; magnetic resonance (MR); neurosurgery.;

机译：脑变形;弥散张量成像（DTI）;有限元模型;图像引导神经外科;磁共振（MR）;神经外科;
入库时间 2022-08-18 13:24:51

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专利

1. Integrating Structural MRI and DTI in Brain Deformation Simulation for Image-Guided Neurosurgery [J] . Shizheng Zhang, Zhong Xue Stephen T.C. Wong Recent patents on medical imaging. . 2015,第2期

机译：集成结构MRI和DTI在脑图像模拟神经外科手术中的模拟
2. Real-time registration of volumetric brain MRI by biomechanical simulation of deformation during image guided neurosurgery [J] . Simon K. Warfield, Florin Talos, Alida Tei, Computing and visualization in science . 2002,第1期

机译：通过图像引导神经外科手术中变形的生物力学模拟实时进行体积脑MRI配准
3. Enhanced FEM-based modeling of brain shift deformation in image-guided neurosurgery [J] . Vigneron L.M., Boman R.C., Ponthot J.-P., Journal of Computational and Applied Mathematics . 2010,第7期

机译：基于增强有限元的图像引导神经外科中脑移位变形的建模
4. Graphical User Interfaces for Simulation of Brain Deformation in Image-Guided Neurosurgery [C] . Xiaoyao Fan, Songbai Ji, Pablo Valdes, Conference on visualization, image-guided procedures, and modeling . 2010

机译：图形用户界面中模拟大脑变形的图形用户界面
5. Age and vascular related differences in white matter integrity, regional brain volumes and cognition: A combined DTI and structural MRI study [D] . Kennedy, Kristen Michelle. 2007

机译：年龄和血管相关的白质完整性，区域性脑容量和认知方面的差异：DTI和结构MRI结合研究
6. An ITK implementation of a physics-based non-rigid registration method for brain deformation in image-guided neurosurgery [O] . Yixun Liu, Andriy Kot, Fotis Drakopoulos, 2014

机译：基于ITK的图像引导神经外科手术中大脑变形的基于物理的非刚性配准方法的ITK实现
7. A surface registration method for quantification of intraoperative brain deformations in image-guided neurosurgery. [O] . Paul, Perrine, Morandi, Xavier, Jannin, Pierre 2009

机译：表面定位方法，用于量化图像引导神经外科手术中脑部变形。

Integrating Structural MRI and DTI in Brain Deformation Simulation for Image-Guided Neurosurgery

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