3T 下高分辨率功能磁共振成像：采用优化生理噪声校正的 3D/2D 回波平面成像。

High-resolution functional MRI at 3 T: 3D/2D echo-planar imaging with optimized physiological noise correction.

机构信息

Wellcome Trust Centre for Neuroimaging, Department of Brain Repair and Rehabilitation, UCL Institute of Neurology, University College London, London, United Kingdom.

出版信息

Magn Reson Med. 2013 Jun;69(6):1657-64. doi: 10.1002/mrm.24398. Epub 2012 Jul 20.

DOI:10.1002/mrm.24398

PMID:22821858

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4495253/

Abstract

High-resolution functional MRI (fMRI) offers unique possibilities for studying human functional neuroanatomy. Although high-resolution fMRI has proven its potential at 7 T, most fMRI studies are still performed at rather low spatial resolution at 3 T. We optimized and compared single-shot two-dimensional echo-planar imaging (EPI) and multishot three-dimensional EPI high-resolution fMRI protocols. We extended image-based physiological noise correction from two-dimensional EPI to multishot three-dimensional EPI. The functional sensitivity of both acquisition schemes was assessed in a visual fMRI experiment. The physiological noise correction increased the sensitivity significantly, can be easily applied, and requires simple recordings of pulse and respiration only. The combination of three-dimensional EPI with physiological noise correction provides exceptional sensitivity for 1.5 mm high-resolution fMRI at 3 T, increasing the temporal signal-to-noise ratio by more than 25% compared to two-dimensional EPI.

摘要

高分辨率功能磁共振成像（fMRI）为研究人类功能神经解剖学提供了独特的可能性。尽管高分辨率 fMRI 在 7T 时已证明了其潜力，但大多数 fMRI 研究仍在 3T 时以较低的空间分辨率进行。我们优化并比较了单次二维 echo-planar 成像（EPI）和多次三维 EPI 高分辨率 fMRI 方案。我们将基于图像的生理噪声校正从二维 EPI 扩展到多次三维 EPI。在视觉 fMRI 实验中评估了两种采集方案的功能灵敏度。生理噪声校正显著提高了灵敏度，易于应用，仅需要简单地记录脉搏和呼吸即可。三维 EPI 与生理噪声校正相结合，为 3T 时 1.5mm 高分辨率 fMRI 提供了卓越的灵敏度，与二维 EPI 相比，时间信号噪声比提高了 25%以上。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d988/4495253/644b48bb27bc/mrm0069-1657-f1.jpg

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3T 下高分辨率功能磁共振成像：采用优化生理噪声校正的 3D/2D 回波平面成像。

High-resolution functional MRI at 3 T: 3D/2D echo-planar imaging with optimized physiological noise correction.

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