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本文引用的文献

1
Diffusion tensor imaging and its application to neuropsychiatric disorders.扩散张量成像及其在神经精神疾病中的应用。
Harv Rev Psychiatry. 2002 Nov-Dec;10(6):324-36. doi: 10.1080/10673220216231.
2
Diffusion tensor imaging using single-shot SENSE-EPI.使用单次激发敏感性编码回波平面成像的扩散张量成像。
Magn Reson Med. 2002 Jul;48(1):128-36. doi: 10.1002/mrm.10184.
3
Uncinate fasciculus findings in schizophrenia: a magnetic resonance diffusion tensor imaging study.精神分裂症中钩状束的研究发现:一项磁共振扩散张量成像研究
Am J Psychiatry. 2002 May;159(5):813-20. doi: 10.1176/appi.ajp.159.5.813.
4
High-resolution line scan diffusion tensor MR imaging of white matter fiber tract anatomy.白质纤维束解剖结构的高分辨率线扫描扩散张量磁共振成像。
AJNR Am J Neuroradiol. 2002 Jan;23(1):67-75.
5
Automatic gradient preemphasis adjustment: a 15-minute journey to improved diffusion-weighted echo-planar imaging.自动梯度预加重调整:通往改善扩散加权回波平面成像的15分钟之旅。
Magn Reson Med. 2002 Jan;47(1):208-12. doi: 10.1002/mrm.10022.
6
Slab scan diffusion imaging.平板扫描扩散成像
Magn Reson Med. 2001 Dec;46(6):1136-43. doi: 10.1002/mrm.1310.
7
Simultaneous correction of ghost and geometric distortion artifacts in EPI using a multiecho reference scan.使用多回波参考扫描同时校正回波平面成像(EPI)中的重影和几何失真伪影。
IEEE Trans Med Imaging. 2001 Jun;20(6):535-9. doi: 10.1109/42.929619.
8
A review of MRI findings in schizophrenia.精神分裂症的磁共振成像(MRI)研究结果综述。
Schizophr Res. 2001 Apr 15;49(1-2):1-52. doi: 10.1016/s0920-9964(01)00163-3.
9
Diffusion tensor imaging: concepts and applications.扩散张量成像:概念与应用
J Magn Reson Imaging. 2001 Apr;13(4):534-46. doi: 10.1002/jmri.1076.
10
A study of rotationally invariant and symmetric indices of diffusion anisotropy.扩散各向异性的旋转不变和对称指数研究。
Magn Reson Imaging. 1999 Jul;17(6):881-92. doi: 10.1016/s0730-725x(99)00029-6.

用于扩散张量成像的单次激发回波平面成像和线扫描协议的比较。

Comparison of single-shot echo-planar and line scan protocols for diffusion tensor imaging.

作者信息

Kubicki Marek, Maier Stephan E, Westin Carl-Frederik, Mamata Hatsuho, Ersner-Hershfield Hal, Estepar Raul, Kikinis Ron, Jolesz Ferenc A, McCarley Robert W, Shenton Martha E

机构信息

Clinical Neuroscience Division, Laboratory of Neuroscience, Boston VA Healthcare System-Brockton Division, Department of Psychiatry, Harvard Medical School, 940 Belmont St, Brockton, MA 02301, USA.

出版信息

Acad Radiol. 2004 Feb;11(2):224-32. doi: 10.1016/s1076-6332(03)00563-4.

DOI:10.1016/s1076-6332(03)00563-4
PMID:14974598
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2793336/
Abstract

RATIONALE AND OBJECTIVES

Both single-shot diffusion-weighted echo-planar imaging (EPI) and line scan diffusion imaging (LSDI) can be used to obtain magnetic resonance diffusion tensor data and to calculate directionally invariant diffusion anisotropy indices, ie, indirect measures of the organization and coherence of white matter fibers in the brain. To date, there has been no comparison of EPI and LSDI. Because EPI is the most commonly used technique for acquiring diffusion tensor data, it is important to understand the limitations and advantages of LSDI relative to EPI.

MATERIALS AND METHODS

Five healthy volunteers underwent EPI and LSDI diffusion on a 1.5 Tesla magnet (General Electric Medical Systems, Milwaukee, WI). Four-mm thick coronal sections, covering the entire brain, were obtained. In addition, one subject was tested with both sequences over four sessions. For each image voxel, eigenvectors and eigenvalues of the diffusion tensor were calculated, and fractional anisotropy (FA) was derived. Several regions of interest were delineated, and for each, mean FA and estimated mean standard deviation were calculated and compared.

RESULTS

Results showed no significant differences between EPI and LSDI for mean FA for the five subjects. When intersession reproducibility for one subject was evaluated, there was a significant difference between EPI and LSDI in FA for the corpus callosum and the right uncinate fasciculus. Moreover, errors associated with each FA measure were larger for EPI than for LSDI.

CONCLUSION

Results indicate that both EPI- and LSDI-derived FA measures are sufficiently robust. However, when higher accuracy is needed, LSDI provides smaller error and smaller inter-subject and inter-session variability than EPI.

摘要

原理与目的

单次激发扩散加权回波平面成像(EPI)和线扫描扩散成像(LSDI)均可用于获取磁共振扩散张量数据,并计算方向不变性扩散各向异性指数,即对脑白质纤维的组织结构和连贯性的间接测量。迄今为止,尚未对EPI和LSDI进行比较。由于EPI是获取扩散张量数据最常用的技术,了解LSDI相对于EPI的局限性和优势很重要。

材料与方法

5名健康志愿者在1.5特斯拉磁体(通用电气医疗系统公司,威斯康星州密尔沃基)上接受了EPI和LSDI扩散成像。获取覆盖整个大脑的4毫米厚冠状切片。此外,一名受试者在四个时间段内接受了两种序列的测试。对于每个图像体素,计算扩散张量的特征向量和特征值,并得出分数各向异性(FA)。划定了几个感兴趣区域,并对每个区域计算并比较了平均FA和估计平均标准差。

结果

结果显示,5名受试者的平均FA在EPI和LSDI之间无显著差异。当评估一名受试者的时间段间可重复性时,胼胝体和右侧钩束的FA在EPI和LSDI之间存在显著差异。此外,与每个FA测量相关的误差EPI比LSDI更大。

结论

结果表明,EPI和LSDI得出的FA测量都足够可靠。然而,当需要更高的准确性时,与EPI相比,LSDI提供的误差更小,受试者间和时间段间的变异性也更小。