缺血性卒中的快速自旋回波扩散加权磁共振成像

Turbo spin-echo diffusion-weighted MR of ischemic stroke.

作者信息

Lövblad K O, Jakob P M, Chen Q, Baird A E, Schlaug G, Warach S, Edelman R R

机构信息

Department of Radiology, Beth Israel Deaconess Medical Center, Harvard Medical School, Boston, Mass, USA.

出版信息

AJNR Am J Neuroradiol. 1998 Feb;19(2):201-8; discussion 209.

PMID:9504466

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8338180/

Abstract

PURPOSE

Our objective was to determine whether a multisection technique, diffusion-weighted half-Fourier single-shot turbo spin-echo (HASTE) imaging, can compensate for the drawbacks common to other diffusion-weighted techniques; specifically, the need for echo-planar technology and the presence of susceptibility artifacts in areas close to the skull base.

METHODS

Forty subjects who were referred to the stroke service with signs of acute (less than 24 hour) neurologic dysfunction were included in this prospective study. MR imaging of the brain was performed with diffusion-weighted echo-planar and diffusion-weighted HASTE sequences. The images obtained with both sequences were analyzed for the presence of hyperintensities corresponding to ischemic lesions as well as for the presence of image artifacts and distortions.

RESULTS

Diffusion-weighted HASTE images showed areas of hyperintensity corresponding to the infarcts present on diffusion-weighted echo-planar imaging studies without distortion or susceptibility artifacts in all the patients who had a stroke. Twelve patients had no acute ischemic lesions; of these, five had other findings, six had normal findings, and in one patient, a hyperintensity seen on diffusion-weighted echo-planar images proved to be an artifact on diffusion-weighted HASTE images.

CONCLUSIONS

Diffusion-weighted HASTE is equal to diffusion-weighted echo-planar imaging in the detection of early ischemia. Because of the absence of significant image distortions and other artifacts, diffusion-weighted HASTE permits fast multiplanar imaging in artifact-prone regions, such as the posterior fossa and the inferior frontal and temporal lobes. Diffusion imaging can be performed on conventional systems with strengths of 1.5 T that do not have echo-planar imaging capabilities.

摘要

目的

我们的目标是确定一种多层面技术，即扩散加权半傅里叶单次激发快速自旋回波（HASTE）成像，是否能够弥补其他扩散加权技术常见的缺点；具体而言，是否能解决对回波平面技术的需求以及颅底附近区域存在的磁化率伪影问题。

方法

本前瞻性研究纳入了40名因急性（少于24小时）神经功能障碍症状而被转诊至卒中服务部门的受试者。使用扩散加权回波平面序列和扩散加权HASTE序列对脑部进行磁共振成像。分析这两种序列获得的图像，以确定是否存在与缺血性病变相对应的高信号区域，以及是否存在图像伪影和畸变。

结果

扩散加权HASTE图像显示出与扩散加权回波平面成像研究中存在的梗死灶相对应的高信号区域，且所有卒中患者的图像均无畸变或磁化率伪影。12名患者没有急性缺血性病变；其中，5名有其他发现，6名结果正常，1名患者在扩散加权回波平面图像上看到的高信号在扩散加权HASTE图像上被证实是伪影。

结论

在检测早期缺血方面，扩散加权HASTE与扩散加权回波平面成像效果相当。由于不存在明显的图像畸变和其他伪影，扩散加权HASTE能够在易出现伪影的区域（如后颅窝以及额下叶和颞叶下部）进行快速多平面成像。在不具备回波平面成像能力的1.5T常规系统上也可以进行扩散成像。

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