利用双共振梯度线圈的三维核磁共振成像方案

S.L. Codd , M.J.D. Mallett , M.R. Halse , J.H. Strange , W. Vennart , T.Van Doorn
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引用次数: 12

摘要

本文开发了一种三维傅里叶变换梯度回波技术,该技术与串联谐振梯度线圈电路相结合,可以产生回波时间小于100 μs的三维核磁共振图像。该方法涉及由两个不同频率的正弦波组成的读梯度波形。这是对以前使用单个正弦波的成像序列的改进,其中只有一半的空间被采样,而另一半是使用共轭对称计算的。在必要的空间“剪切和粘贴”中涉及的不准确性不可避免地导致最终图像中的伪影。该方法的重要特点是采用合适的相位编码对空间的所有八域进行采样,在梯度均为零时施加射频脉冲,在梯度基本恒定时形成回波。该方法将使固体成像技术更广泛地应用于体内生物样品。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A Three-Dimensional NMR Imaging Scheme Utilizing Doubly Resonant Gradient Coils

A 3DFT gradient-echo technique has been developed which, in conjunction with series-resonant gradient-coil circuits, can produce three-dimensional NMR images with an echo time of less than 100 μs. The method involves a read-gradient waveform composed of two sinusoids of different frequencies. This is an improvement on previous imaging sequences using a single sinusoid where only half ofkspace was sampled and where the second half was calculated using conjugate symmetry. The inaccuracies involved in the necessary “cut and paste” ofkspace inevitably lead to artifacts in the final image. The important features of the new method are that with suitable phase encoding all octants ofkspace are sampled, the RF pulse is applied when the gradients are all zero, and the echo forms when the gradient is essentially constant. This method will allow more extensive application of solid imaging techniques to biological samplesin vivo.

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