通过磁共振成像筛查胎儿中枢神经系统异常。

Screening of fetal CNS anomalies by MR imaging.

作者信息

Guo Wan-Yuo, Wong Tai-Tong

机构信息

Department of Radiology, Taipei Veterans General Hospital, 112 Taipei, Taiwan.

出版信息

Childs Nerv Syst. 2003 Aug;19(7-8):410-4. doi: 10.1007/s00381-003-0762-9. Epub 2003 Jun 18.

DOI:10.1007/s00381-003-0762-9

PMID:12820001

Abstract

INTRODUCTION

MR with ultrafast imaging techniques is, nowadays, a standard clinical service in most medical centers for prenatal counseling when sonographic examination is not conclusive or a complicated pregnancy is encountered. Compared with other imaging modalities, MR has multi-faceted superiorities in that it uses non-ionization radiation, it has freedom in selecting an imaging plane, it produces standardized and easily reproducible imaging views, it provides excellent tissue contrast and overview of the fetus, there is no scanning dead space, and no limit to penetration depth. Central nervous system anomalies are the most common indications for fetal MR imaging.

TECHNICAL ASPECTS

Among the various ultrafast imaging techniques, T2-weighted imaging, e.g., spin echo-based half-Fourier acquisition single-shot turbo spin-echo and gradient echo-based steady-state free precession, and T1-weighted imaging, e.g., fast low angle shot and fast spoiled gradient recalled sequences, are commonly used.

FUTURE

In the future, morphometry in three dimensions, real-time imaging, and the functional and metabolic evaluation of the fetal brain will be the important ongoing challenges.

摘要

引言

如今，当超声检查结果不明确或遇到复杂妊娠时，采用超快成像技术的磁共振成像（MR）在大多数医疗中心已成为产前咨询的标准临床服务。与其他成像方式相比，MR具有多方面优势，它使用非电离辐射，在选择成像平面方面具有自由度，能产生标准化且易于重复的成像视图，能提供出色的组织对比度和胎儿全貌，不存在扫描死角，且穿透深度不受限制。中枢神经系统异常是胎儿MR成像最常见的适应证。

技术方面

在各种超快成像技术中，常用的有T2加权成像，如基于自旋回波的半傅里叶采集单次激发快速自旋回波和基于梯度回波的稳态自由进动；以及T1加权成像，如快速低角度激发和快速扰相梯度回波序列。

未来

未来，三维形态测量、实时成像以及胎儿脑功能和代谢评估将是持续面临的重要挑战。

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通过磁共振成像筛查胎儿中枢神经系统异常。

Screening of fetal CNS anomalies by MR imaging.

作者信息

机构信息

出版信息

INTRODUCTION

TECHNICAL ASPECTS

FUTURE

引言

技术方面

未来

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