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无迹卡尔曼滤波轨迹法在水肿中的表现:双张量模型分析。

Performance of unscented Kalman filter tractography in edema: Analysis of the two-tensor model.

机构信息

Brigham and Women's Hospital, Harvard Medical School, Boston, MA, USA; Massachusetts Institute of Technology, Cambridge, MA, USA.

Brigham and Women's Hospital, Harvard Medical School, Boston, MA, USA.

出版信息

Neuroimage Clin. 2017 Jun 26;15:819-831. doi: 10.1016/j.nicl.2017.06.027. eCollection 2017.

DOI:10.1016/j.nicl.2017.06.027
PMID:28725549
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5506885/
Abstract

Diffusion MRI tractography is increasingly used in pre-operative neurosurgical planning to visualize critical fiber tracts. However, a major challenge for conventional tractography, especially in patients with brain tumors, is tracing fiber tracts that are affected by vasogenic edema, which increases water content in the tissue and lowers diffusion anisotropy. One strategy for improving fiber tracking is to use a tractography method that is more sensitive than the traditional single-tensor streamline tractography. We performed experiments to assess the performance of two-tensor unscented Kalman filter (UKF) tractography in edema. UKF tractography fits a diffusion model to the data during fiber tracking, taking advantage of prior information from the previous step along the fiber. We studied UKF performance in a synthetic diffusion MRI digital phantom with simulated edema and in retrospective data from two neurosurgical patients with edema affecting the arcuate fasciculus and corticospinal tracts. We compared the performance of several tractography methods including traditional streamline, UKF single-tensor, and UKF two-tensor. To provide practical guidance on how the UKF method could be employed, we evaluated the impact of using various seed regions both inside and outside the edematous regions, as well as the impact of parameter settings on the tractography sensitivity. We quantified the sensitivity of different methods by measuring the percentage of the patient-specific fMRI activation that was reached by the tractography. We expected that diffusion anisotropy threshold parameters, as well as the inclusion of a free water model, would significantly influence the reconstruction of edematous WM fiber tracts, because edema increases water content in the tissue and lowers anisotropy. Contrary to our initial expectations, varying the fractional anisotropy threshold and including a free water model did not affect the UKF two-tensor tractography output appreciably in these two patient datasets. The most effective parameter for increasing tracking sensitivity was the generalized anisotropy (GA) threshold, which increased the length of tracked fibers when reduced to 0.075. In addition, the most effective seeding strategy was seeding in the whole brain or in a large region outside of the edema. Overall, the main contribution of this study is to provide insight into how UKF tractography can work, using a two-tensor model, to begin to address the challenge of fiber tract reconstruction in edematous regions near brain tumors.

摘要

弥散磁共振纤维束追踪技术越来越多地用于术前神经外科规划,以可视化关键纤维束。然而,对于传统纤维束追踪技术来说,一个主要的挑战是追踪受血管源性水肿影响的纤维束,水肿会增加组织中的含水量并降低扩散各向异性。一种提高纤维追踪的策略是使用比传统单张量流线追踪更敏感的纤维束追踪方法。我们进行了实验来评估双张量无迹卡尔曼滤波(UKF)纤维束追踪在水肿中的性能。UKF 纤维束追踪在纤维追踪过程中对数据拟合扩散模型,利用纤维上一步的先验信息。我们在具有模拟水肿的合成弥散磁共振数字体模中以及在两名受影响的弓状束和皮质脊髓束水肿的神经外科患者的回顾性数据中研究了 UKF 的性能。我们比较了几种纤维束追踪方法的性能,包括传统流线追踪、UKF 单张量和 UKF 双张量。为了提供关于如何使用 UKF 方法的实用指导,我们评估了使用不同种子区域(水肿区域内外)以及参数设置对纤维束追踪敏感性的影响。我们通过测量纤维追踪到达的患者特定功能磁共振成像激活的百分比来量化不同方法的敏感性。我们预计扩散各向异性阈值参数以及包含自由水模型将显著影响水肿性 WM 纤维束的重建,因为水肿会增加组织中的含水量并降低各向异性。与我们最初的预期相反,在这两个患者数据集,改变各向异性分数阈值和包含自由水模型对 UKF 双张量纤维束追踪输出没有明显影响。增加追踪敏感性的最有效参数是广义各向异性(GA)阈值,当将其降低到 0.075 时,会增加追踪纤维的长度。此外,最有效的种子策略是在整个大脑或水肿外的大区域中进行种子。总的来说,本研究的主要贡献是提供了有关 UKF 纤维束追踪如何使用双张量模型工作的见解,以开始解决肿瘤附近水肿区域的纤维束重建挑战。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/dccd/5506885/fa81a9b325d5/gr11.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/dccd/5506885/fa81a9b325d5/gr11.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/dccd/5506885/1303f78492c4/gr6.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/dccd/5506885/d7ffb678a9d7/gr7.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/dccd/5506885/b4cca7f49985/gr8.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/dccd/5506885/f9150a1f1cd4/gr9.jpg
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