基于高角分辨率扩散成像的压缩感知与扩散张量成像比较在胶质瘤患者中的视辐射纤维束追踪——初步经验。

Optic radiation fiber tractography in glioma patients based on high angular resolution diffusion imaging with compressed sensing compared with diffusion tensor imaging - initial experience.

机构信息

Department of Neurosurgery, University of Marburg, Marburg, Germany.

出版信息

PLoS One. 2013 Jul 26;8(7):e70973. doi: 10.1371/journal.pone.0070973. Print 2013.

DOI:10.1371/journal.pone.0070973

PMID:23923036

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3724794/

Abstract

OBJECTIVE

Up to now, fiber tractography in the clinical routine is mostly based on diffusion tensor imaging (DTI). However, there are known drawbacks in the resolution of crossing or kissing fibers and in the vicinity of a tumor or edema. These restrictions can be overcome by tractography based on High Angular Resolution Diffusion Imaging (HARDI) which in turn requires larger numbers of gradients resulting in longer acquisition times. Using compressed sensing (CS) techniques, HARDI signals can be obtained by using less non-collinear diffusion gradients, thus enabling the use of HARDI-based fiber tractography in the clinical routine.

METHODS

Eight patients with gliomas in the temporal lobe, in proximity to the optic radiation (OR), underwent 3T MRI including a diffusion-weighted dataset with 30 gradient directions. Fiber tractography of the OR using a deterministic streamline algorithm based on DTI was compared to tractography based on reconstructed diffusion signals using HARDI+CS.

RESULTS

HARDI+CS based tractography displayed the OR more conclusively compared to the DTI-based results in all eight cases. In particular, the potential of HARDI+CS-based tractography was observed for cases of high grade gliomas with significant peritumoral edema, larger tumor size or closer proximity of tumor and reconstructed fiber tract.

CONCLUSIONS

Overcoming the problem of long acquisition times, HARDI+CS seems to be a promising basis for fiber tractography of the OR in regions of disturbed diffusion, areas of high interest in glioma surgery.

摘要

目的

到目前为止，纤维束追踪在临床常规中主要基于弥散张量成像（DTI）。然而，在交叉或亲吻纤维的分辨率以及在肿瘤或水肿附近存在已知的缺陷。这些限制可以通过基于高角分辨率弥散成像（HARDI）的纤维束追踪来克服，而这反过来又需要更多的梯度，从而导致采集时间更长。使用压缩感知（CS）技术，可以通过使用较少的非共线扩散梯度来获得 HARDI 信号，从而能够在临床常规中使用基于 HARDI 的纤维束追踪。

方法

八名颞叶胶质瘤患者，靠近视辐射（OR），在 3T MRI 上进行了检查，包括具有 30 个梯度方向的弥散加权数据集。使用基于 DTI 的确定性流线算法对 OR 进行纤维束追踪，并与基于 HARDI+CS 重建弥散信号的纤维束追踪进行比较。

结果

在所有 8 例中，HARDI+CS 基于纤维束追踪比基于 DTI 的结果更明确地显示了 OR。特别是，在具有显著瘤周水肿、较大肿瘤大小或肿瘤与重建纤维束更接近的高级别胶质瘤病例中，观察到了 HARDI+CS 基于纤维束追踪的潜力。

结论

克服采集时间长的问题，HARDI+CS 似乎是弥散受扰区域 OR 纤维束追踪的有前途的基础，这是胶质瘤手术中非常关注的区域。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/281c/3724794/e4ddf2f3657d/pone.0070973.g001.jpg

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基于高角分辨率扩散成像的压缩感知与扩散张量成像比较在胶质瘤患者中的视辐射纤维束追踪——初步经验。

Optic radiation fiber tractography in glioma patients based on high angular resolution diffusion imaging with compressed sensing compared with diffusion tensor imaging - initial experience.

机构信息

出版信息

OBJECTIVE

METHODS

RESULTS

CONCLUSIONS

目的

方法

结果

结论

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