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使用T2准备的RUFIS进行安静且无失真的全脑BOLD功能磁共振成像。

Quiet and distortion-free, whole brain BOLD fMRI using T2 -prepared RUFIS.

作者信息

Solana Ana Beatriz, Menini Anne, Sacolick Laura I, Hehn Nicolas, Wiesinger Florian

机构信息

GE Global Research, Munich, Germany.

Department of Medical Engineering, Technische Universität München, Munich, Germany.

出版信息

Magn Reson Med. 2016 Apr;75(4):1402-12. doi: 10.1002/mrm.25658. Epub 2015 May 12.

DOI:10.1002/mrm.25658
PMID:25962633
Abstract

PURPOSE

To develop and evaluate a novel MR method that addresses some of the most eminent technical challenges of current BOLD-based fMRI in terms of 1) acoustic noise and 2) geometric distortions and signal dropouts.

METHODS

A BOLD-sensitive fMRI pulse sequence was designed that first generates T2-weighted magnetization (using a T2 preparation module) and subsequently undergoes three-dimensional (3D) radial encoding using a rotating ultrafast imaging sequence (RUFIS). The method was tested on healthy volunteers at 3T with motor, visual, and auditory tasks, and compared relative to standard gradient and spin echo planar imaging (EPI) methods.

RESULTS

In combination with parallel imaging the method achieves efficient and robust 3D whole brain coverage (3 mm isotropic resolution in 2.65 s scan time). Compared with standard EPI-based fMRI, the method demonstrated 1) T2-weighted imaging clean of geometrical distortions and signal dropout, 2) an acoustic noise reduction of ∼40 dB(A), and 3) a consistent BOLD response that is less sensitive (∼1.3% BOLD change) but spatially more specific.

CONCLUSION

T2-prepared RUFIS provides quiet and distortion-free whole brain BOLD fMRI with minimal demands on the gradient performance. In particular, auditory fMRI and/or studies involving brain regions near air-tissue interfaces are expected to greatly benefit from the proposed method, especially if performed at ultrahigh field strengths.

摘要

目的

开发并评估一种新型磁共振方法,该方法在以下方面应对当前基于血氧水平依赖性功能磁共振成像(BOLD-fMRI)的一些最突出技术挑战:1)声学噪声;2)几何畸变和信号丢失。

方法

设计了一种对BOLD敏感的fMRI脉冲序列,该序列首先生成T2加权磁化(使用T2准备模块),随后使用旋转超快成像序列(RUFIS)进行三维(3D)径向编码。该方法在3T场强下对健康志愿者进行了运动、视觉和听觉任务测试,并与标准梯度和自旋回波平面成像(EPI)方法进行了比较。

结果

结合并行成像,该方法实现了高效且稳健的3D全脑覆盖(在2.65秒扫描时间内达到3毫米各向同性分辨率)。与基于标准EPI的fMRI相比,该方法显示出:1)T2加权成像无几何畸变和信号丢失;2)声学噪声降低约40 dB(A);3)一致的BOLD反应,其敏感性较低(BOLD变化约1.3%)但空间特异性更高。

结论

T2准备的RUFIS提供安静且无畸变的全脑BOLD-fMRI,对梯度性能要求最低。特别是,听觉fMRI和/或涉及气-组织界面附近脑区的研究有望从该方法中大大受益,尤其是在超高场强下进行时。

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