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采用脑脊液抑制和信号噪声保留的扩散张量成像结合液体衰减反转恢复和常规成像采集:纤维追踪比较。

Diffusion tensor imaging with cerebrospinal fluid suppression and signal-to-noise preservation using acquisition combining fluid-attenuated inversion recovery and conventional imaging: comparison of fiber tracking.

机构信息

Department of Electrical Engineering, National Taiwan University, Taipei, Taiwan.

出版信息

Eur J Radiol. 2011 Jul;79(1):113-7. doi: 10.1016/j.ejrad.2009.12.032. Epub 2010 Feb 4.

DOI:10.1016/j.ejrad.2009.12.032
PMID:20137874
Abstract

OBJECTIVE

To propose an acquisition scheme suitable for fiber tractography without cerebrospinal fluid contamination while retaining high signal-to-noise ratio.

MATERIALS AND METHODS

Diffusion tensor imaging (DTI) data at b=0 and 1000 s/mm(2) were acquired using conventional spin-echo echo-planar imaging (TR/TE=4000/69, NEX=4, scan time 2:14) plus one additional fluid-attenuated inversion recovery (FLAIR) b=0 set obtained at TI=2200, TR=6000, and NEX=6 (scan time 1:36). The FLAIR images were intensity-adjusted to match the conventional b=0 images according to the white matter signals. Five healthy adults were scanned, with tractography performed from conventional b=1000 and FLAIR b=0 images using the EZ-tracing algorithm. Total traced volumes were statistically compared among conventional DTI, FLAIR DTI, and the "combined DTI" methods at three different slice thicknesses. The fiber consistency index was derived for five repeated scans to assess possible false tracts.

RESULTS

Whole-brain traced volumes from FLAIR DTI and combined DTI were 9.7% (p<0.001) and 17.0% (p<0.0001) greater than from conventional DTI, respectively (paired Student t-test). Fiber consistency was similar for all three acquisition techniques (p>0.2), suggesting insignificant difference in false tracking. Compared with conventional DTI, the increase in total traced volume for FLAIR DTI diminished with decreasing slice thickness, whereas the tractography advantage for combined DTI became increasingly prominent at thinner slices.

CONCLUSIONS

The combined DTI technique is capable of improving tractography with higher signal-to-noise ratio at shorter scan time than FLAIR DTI. Its superiority at thin-slice acquisitions makes it particularly suitable for high-resolution clinical applications.

摘要

目的

提出一种适合纤维束追踪的采集方案,避免脑脊液污染,同时保持高信噪比。

材料与方法

使用常规自旋回波回波平面成像(TR/TE=4000/69,NEX=4,扫描时间 2:14)加一个额外的液体衰减反转恢复(FLAIR)b=0 集,在 TI=2200、TR=6000 和 NEX=6(扫描时间 1:36)。FLAIR 图像的强度根据白质信号进行调整,以与常规 b=0 图像匹配。对 5 名健康成年人进行扫描,使用 EZ 追踪算法从常规 b=1000 和 FLAIR b=0 图像进行纤维束追踪。在三种不同的切片厚度下,对常规 DTI、FLAIR DTI 和“组合 DTI”方法的总追踪体积进行统计学比较。为了评估可能的假束,对五次重复扫描的纤维一致性指数进行了推导。

结果

FLAIR DTI 和组合 DTI 的全脑追踪体积分别比常规 DTI 大 9.7%(p<0.001)和 17.0%(p<0.0001)(配对学生 t 检验)。三种采集技术的纤维一致性相似(p>0.2),表明在假追踪方面没有显著差异。与常规 DTI 相比,FLAIR DTI 的总追踪体积增加量随着切片厚度的减小而减小,而组合 DTI 的追踪优势在更薄的切片中变得越来越明显。

结论

与 FLAIR DTI 相比,组合 DTI 技术能够在更短的扫描时间内提高纤维追踪的信噪比,具有更高的信号噪声比。在薄切片采集方面的优势使其特别适用于高分辨率的临床应用。

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