Department of Radiology, School of Medicine, Case Western Reserve University/University Hospitals Case Medical Center, Cleveland, Ohio 44106, USA.
Neuroimage. 2010 Oct 1;52(4):1428-43. doi: 10.1016/j.neuroimage.2010.05.004. Epub 2010 May 7.
Functional magnetic resonance imaging with readouts at multiple echo times is useful for optimizing sensitivity across a range of tissue T2* values as well as for quantifying T2*. With single-shot acquisitions, both the minimum TE value and the number of TEs which it is possible to collect within a single TR are limited by the long echo-planar imaging readout duration (20-40 ms). In the present work, a multi-shot 3D radial acquisition which allows rapid whole-brain imaging at a range of echo times is proposed. The proposed 3D k-space coverage is implemented via a series of rotations of a single 2D interleaf. Data can be reconstructed at a variety of temporal resolutions from a single dataset, allowing for a flexible tradeoff between temporal resolution and BOLD contrast to noise ratio. It is demonstrated that whole-brain images at 5 echo times (TEs from 10 to 46 ms) can be acquired at a temporal rate as rapid as 400 ms/volume (3.75 mm isotropic resolution). Activation maps for a simultaneous motor/visual task consistent across multiple acceleration factors are obtained. Weighted combination of the echoes results in Z-scores that are significantly (p=0.016) higher than those resulting from any of the individual echo time images.
采用多回波时间读取的功能磁共振成像对于优化各种组织 T2* 值的灵敏度以及量化 T2* 非常有用。在单次激发采集中,最小 TE 值和在单个 TR 内可以采集的 TE 数量都受到长回波平面成像读取时间(20-40ms)的限制。在本研究中,提出了一种多激发 3D 径向采集方法,可在多种回波时间下实现快速全脑成像。所提出的 3D 空间覆盖范围通过单个 2D 交错的一系列旋转来实现。可以从单个数据集重建各种时间分辨率的数据,从而在时间分辨率和 BOLD 对比噪声比之间灵活折衷。结果表明,可以以 400ms/volume 的快速时间率采集 5 个回波时间(TE 从 10 到 46ms)的全脑图像(3.75mm 各向同性分辨率)。获得了多个加速因子下一致的同时运动/视觉任务的激活图。回波的加权组合导致的 Z 分数明显(p=0.016)高于任何单个回波时间图像的结果。
