集成并行接收、激发和匀场（iPRES）。

Integrated parallel reception, excitation, and shimming (iPRES).

机构信息

Brain Imaging and Analysis Center, Duke University, Durham, North Carolina 27705, USA.

出版信息

Magn Reson Med. 2013 Jul;70(1):241-7. doi: 10.1002/mrm.24766. Epub 2013 Apr 29.

DOI:10.1002/mrm.24766

PMID:23629974

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3800110/

Abstract

PURPOSE

To develop a new concept for a hardware platform that enables integrated parallel reception, excitation, and shimming.

THEORY

This concept uses a single coil array rather than separate arrays for parallel excitation/reception and B0 shimming. It relies on a novel design that allows a radiofrequency current (for excitation/reception) and a direct current (for B0 shimming) to coexist independently in the same coil.

METHODS

Proof-of-concept B0 shimming experiments were performed with a two-coil array in a phantom, whereas B0 shimming simulations were performed with a 48-coil array in the human brain.

RESULTS

Our experiments show that individually optimized direct currents applied in each coil can reduce the B0 root-mean-square error by 62-81% and minimize distortions in echo-planar images. The simulations show that dynamic shimming with the 48-coil integrated parallel reception, excitation, and shimming array can reduce the B0 root-mean-square error in the prefrontal and temporal regions by 66-79% as compared with static second-order spherical harmonic shimming and by 12-23% as compared with dynamic shimming with a 48-coil conventional shim array.

CONCLUSION

Our results demonstrate the feasibility of the integrated parallel reception, excitation, and shimming concept to perform parallel excitation/reception and B0 shimming with a unified coil system as well as its promise for in vivo applications.

摘要

目的

开发一种新的硬件平台概念，实现集成的并行接收、激发和匀场。

理论

该概念使用单个线圈阵列，而不是用于并行激发/接收和 B0 匀场的独立阵列。它依赖于一种新颖的设计，允许射频电流（用于激发/接收）和直流电流（用于 B0 匀场）在同一线圈中独立共存。

方法

在体模中使用双线圈阵列进行了 B0 匀场实验验证，而在人脑内使用 48 线圈阵列进行了 B0 匀场模拟。

结果

我们的实验表明，应用于每个线圈的单独优化的直流电流可以将 B0 的均方根误差降低 62-81%，并最小化回波平面图像的失真。模拟结果表明，与静态二阶球谐匀场相比，使用 48 线圈集成并行接收、激发和匀场阵列进行动态匀场可以将前额叶和颞叶区域的 B0 均方根误差降低 66-79%，与使用 48 线圈传统匀场阵列进行动态匀场相比，降低了 12-23%。

结论

我们的结果证明了集成并行接收、激发和匀场概念的可行性，可使用统一的线圈系统进行并行激发/接收和 B0 匀场，并且有望应用于体内。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c714/3800110/8ccd6a05afa8/nihms520259f1.jpg

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