Patient-Specific Cranial Nerve Identification Using a Discrete Deformable Contour Model for Skull Base Neurosurgery Planning and Simulation

机译：患者特异性颅神经识别，使用离散可变形轮廓模型进行颅底神经外科规划和仿真

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In this paper, we present a minimally supervised method for the identification of the intra-cranial portion of cranial nerves, using a novel, discrete 1-Simplex 3D active contour model. The clinical applications include planning and personalized simulation of skull base neurosurgery. The centerline of a cranial nerve is initialized from two user-supplied end points by computing a Minimal Path. The 1-Simplex is a Newtonian model for vertex motion, where every non-endpoint vertex has 2-connectivity with neighboring vertices, with which it is linked by edges. The segmentation behavior of the model is governed by the equilibrium between internal and external forces. The external forces include an image force that favors a centered path within high-vesselness points. The method is validated quantitatively using synthetic and real MRI datasets.

机译：在本文中，我们介绍了一种利用新颖的离散的1-Simplex 3D主动轮廓模型来鉴定颅神经内部颅内部分的最小监督方法。临床应用包括颅底神经外科的规划和个性化模拟。通过计算最小路径，从两个用户提供的端点初始化颅神经的中心线。 1-simplex是一个用于顶点运动的牛顿模型，其中每个非端点顶点都有2个与相邻顶点连接，它由边缘链接。该模型的分割行为由内部和外力之间的均衡管辖。外力包括一个有利于高血管点内的居中路径的图像力。该方法使用合成和实际MRI数据集定量验证。

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《International Workshop on Clinical Image-Based Procedures》|2016年||共9页
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Sharmin Sultana; Jason E. Blatt; Yueh Lee; Matthew Ewend; Justin S. Cetas; Anthony Costa; Michel A. Audette;
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中图分类 TP391.41-53;
关键词
Cranial nerves; Centerline; Simplex; Minimal path; Vesselness; Neurosurgery planning; Personalized neurosurgery simulation;

机译：颅神经;中心线;单纯性;最小路径;血管;神经外科规划;个性化神经外科仿真;

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专利

1. MRI-Based Medial Axis Extraction and Boundary Segmentation of Cranial Nerves Through Discrete Deformable 3D Contour and Surface Models [J] . Sharmin Sultana, Jason E. Blatt, Benjamin Gilles, IEEE Transactions on Medical Imaging . 2017,第8期

机译：通过离散形变的3D轮廓和表面模型基于MRI的颅神经中轴提取和边界分割
2. Skull base and cranial nerves radiologic anatomy part 2: Cranial nerves [J] . Miranda M. Andrés, Kuschel R. Cristina, Miranda G. Maximiliano, Revista chilena de radiologia . 2020,第2期

机译：颅底和颅神经放射学解剖第2部分：颅神经
3. Neurophysiological Identification of Cranial Nerves During Endoscopic Endonasal Surgery of Skull Base Tumors: Pilot Study Technical Report [J] . Shkarubo Alexey Nikolaevich, Chernov Ilia Valerievich, Ogurtsova Anna Anatolievna, World neurosurgery . 2017,第期

机译：头骨基础肿瘤内镜型内膜外科颅神经颅神经的神经生理鉴定：试点研究技术报告
4. Patient-Specific Cranial Nerve Identification Using a Discrete Deformable Contour Model for Skull Base Neurosurgery Planning and Simulation [C] . Sharmin Sultana, Jason E. Blatt, Yueh Lee, International conference on medical image computing and computer assisted interventions;International workshop on clinical image-based procedures . 2016

机译：使用颅骨神经外科手术计划和模拟的离散可变形轮廓模型对患者特定的颅神经进行识别
5. Deformable models in image-guided neurosurgery. [D] . Skrinjar, Oskar. 2002

机译：图像引导神经外科中的可变形模型。
6. Comparison of compressional and elastic wave simulations for patient-specific planning prior to transcranial photoacoustic-guided neurosurgery [O] . Michelle T. Graham, Reese A. Dunne, Muyinatu A. Lediju Bell 2021

机译：经血管光声引导神经外科术前患者特异性规划的压缩和弹性波模拟的比较
7. A Systematic Review of Simulation-Based Training in Neurosurgery, Part 1: Cranial Neurosurgery [O] . Ebrahim Adnan Patel, Abdullatif Aydin, Michael Cearns, 2020

机译：基于模拟的神经外科训练系统综述，第1部分：颅神经外科

Patient-Specific Cranial Nerve Identification Using a Discrete Deformable Contour Model for Skull Base Neurosurgery Planning and Simulation

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