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7特斯拉下人类大脑的动态匀场

Dynamic Shimming of the Human Brain at 7 Tesla.

作者信息

Juchem Christoph, Nixon Terence W, Diduch Piotr, Rothman Douglas L, Starewicz Piotr, de Graaf Robin A

机构信息

MRRC, Yale University, New Haven, CT 06520, USA.

出版信息

Concepts Magn Reson Part B Magn Reson Eng. 2010 Jul 6;37B(3):116-128. doi: 10.1002/cmr.b.20169.

DOI:10.1002/cmr.b.20169
PMID:20657809
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2907895/
Abstract

Dynamic shim updating (DSU) of the zero- to second-order spherical harmonic field terms has previously been shown to improve the magnetic field homogeneity in the human brain at 4 Tesla. The increased magnetic field inhomogeneity at 7 Tesla can benefit from inclusion of third-order shims during DSU. However, pulsed higher-order shims can generate a multitude of temporally varying magnetic fields arising from eddy-currents that can strongly degrade the magnetic field homogeneity.The first realization of zero- to third-order DSU with full preemphasis and B(0) compensation enabled improved shimming of the human brain at 7 Tesla not only in comparison with global (i.e. static) shimming, but also when compared to state-of-the-art zero- to second-order DSU. Temporal shim-to-shim interactions were measured for each of the 16 zero- to third-order shim coils along 1D column projections on a spherical phantom. The decomposition into up to 3 exponentials allowed full preemphasis and B(0) compensation of all 16 shims covering 67 potential shim-to-shim interactions. Despite the significant improvements achievable with DSU, the magnetic field homogeneity is still not perfect even when updating all zero- through third-order shims. This is because DSU is still inherently limited by the shallowness of the low order spherical harmonic fields and their inability to compensate the higher-order inhomogeneities encountered in vivo. However, DSU maximizes the usefulness of conventional shim coil systems and provides magnetic field homogeneity that is adequate for a wide range of applications.

摘要

零阶至二阶球谐场项的动态匀场更新(DSU)此前已被证明可改善4特斯拉磁场下人脑的磁场均匀性。7特斯拉磁场下增加的磁场不均匀性可通过在DSU过程中加入三阶匀场线圈而受益。然而,脉冲高阶匀场会产生大量由涡流引起的随时间变化的磁场,这会严重降低磁场均匀性。首次实现具有完全预加重和B(0)补偿的零阶至三阶DSU,不仅与全局(即静态)匀场相比,而且与最先进的零阶至二阶DSU相比,都能改善7特斯拉磁场下人脑的匀场效果。在球形体模上沿一维列投影对16个零阶至三阶匀场线圈中的每一个进行了逐时匀场间相互作用的测量。分解为多达3个指数函数,可对所有16个匀场进行完全预加重和B(0)补偿,涵盖67种潜在的匀场间相互作用。尽管DSU可实现显著改善,但即使更新所有零阶至三阶匀场,磁场均匀性仍不完美。这是因为DSU本质上仍受低阶球谐场的浅度及其无法补偿体内遇到的高阶不均匀性的限制。然而,DSU最大限度地提高了传统匀场线圈系统的实用性,并提供了适用于广泛应用的磁场均匀性。

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