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Stochastic-offset-enhanced restricted slice excitation and 180° refocusing designs with spatially non-linear ΔB shim array fields.具有空间非线性 ΔB 匀场数组场的随机偏置增强约束切片激发和 180°重聚焦设计。
Magn Reson Med. 2023 Dec;90(6):2572-2591. doi: 10.1002/mrm.29827. Epub 2023 Sep 5.
2
Pulsed selective excitation theory and design in multiphoton MRI.多光子磁共振成像中的脉冲选择激发理论与设计。
J Magn Reson. 2023 Mar;348:107376. doi: 10.1016/j.jmr.2023.107376. Epub 2023 Jan 11.
3
Standardized universal pulse: A fast RF calibration approach to improve flip angle accuracy in parallel transmission.标准化通用脉冲:一种用于提高并行传输中翻转角精度的快速射频校准方法。
Magn Reson Med. 2022 Jun;87(6):2839-2850. doi: 10.1002/mrm.29180. Epub 2022 Feb 4.
4
Selective RF excitation designs enabled by time-varying spatially non-linear ΔB fields with applications in fetal MRI.基于时变空间非线性 ΔB 场的选择性射频激发设计及其在胎儿 MRI 中的应用。
Magn Reson Med. 2022 May;87(5):2161-2177. doi: 10.1002/mrm.29114. Epub 2021 Dec 21.
5
A 31-channel integrated "AC/DC" B shim and radiofrequency receive array coil for improved 7T MRI.一种 31 通道集成的“AC/DC”B 形屏蔽和射频接收阵列线圈,用于提高 7T MRI 性能。
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6
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7
Universal nonselective excitation and refocusing pulses with improved robustness to off-resonance for Magnetic Resonance Imaging at 7 Tesla with parallel transmission.用于7特斯拉并行传输磁共振成像的通用非选择性激发和重聚焦脉冲,对失谐具有更高的鲁棒性。
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8
Multiphoton magnetic resonance in imaging: A classical description and implementation.成像中的多光子磁共振:经典描述与实现
Magn Reson Med. 2020 Sep;84(3):1184-1197. doi: 10.1002/mrm.28186. Epub 2020 Feb 5.
9
A 32-channel multi-coil setup optimized for human brain shimming at 9.4T.一种优化用于 9.4T 人脑匀场的 32 通道多线圈设置。
Magn Reson Med. 2020 Feb;83(2):749-764. doi: 10.1002/mrm.27929. Epub 2019 Sep 4.
10
Gradient-echo EPI using a high-degree shim insert coil at 7 T: Implications for BOLD fMRI.7T 高次匀场插入线圈梯度回波 EPI:对血氧水平依赖 fMRI 的影响。
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多光子并行传输 (MP-pTx):脉冲设计方法与数值验证。

Multiphoton parallel transmission (MP-pTx): Pulse design methods and numerical validation.

机构信息

Department of Electrical Engineering and Computer Science, Massachusetts Institute of Technology, Cambridge, Massachusetts, USA.

Harvard Medical School, Boston, Massachusetts, USA.

出版信息

Magn Reson Med. 2024 Oct;92(4):1376-1391. doi: 10.1002/mrm.30116. Epub 2024 Jun 20.

DOI:10.1002/mrm.30116
PMID:38899391
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11262987/
Abstract

PURPOSE

We propose and evaluate multiphoton parallel transmission (MP-pTx) to mitigate flip angle inhomogeneities in high-field MRI. MP-pTx is an excitation method that utilizes a single, conventional birdcage coil supplemented with low-frequency (kHz) irradiation from a multichannel shim array and/or gradient channels. SAR analysis is simplified to that of a conventional birdcage coil, because only the radiofrequency (RF) field from the birdcage coil produces significant SAR.

METHODS

MP-pTx employs an off-resonance RF pulse from a conventional birdcage coil supplemented with oscillating -directed fields from a multichannel shim array and/or the gradient coils. We simulate the ability of MP-pTx to create uniform nonselective brain excitations at 7 T using realistic and field maps. The RF, shim array, and gradient waveform's amplitudes and phases are optimized using a genetic algorithm followed by sequential quadratic programming.

RESULTS

A 1 ms MP-pTx excitation using a 32-channel shim array with current constrained to less than 50 Amp-turns reduced the transverse magnetization's normalized root-mean-squared error from 29% for a conventional birdcage excitation to 6.6% and was nearly 40% better than a 1 ms birdcage coil 5 kT-point excitation with optimized kT-point locations and comparable pulse power.

CONCLUSION

The MP-pTx method resembles conventional pTx in its goals and approach but replaces the parallel RF channels with cheaper, low-frequency shim channels. The method mitigates high-field flip angle inhomogeneities to a level better than 3 T CP-mode and comparable to 7 T pTx while retaining the straightforward SAR characteristics of conventional birdcage excitations, as low-frequency shim array fields produce negligible SAR.

摘要

目的

我们提出并评估多光子并行传输(MP-pTx)以减轻高场 MRI 中的翻转角不均匀性。MP-pTx 是一种激励方法,它利用单个传统的鸟笼线圈,并辅以低频(kHz)辐射来自多通道匀场线圈阵列和/或梯度通道。SAR 分析简化为传统鸟笼线圈的 SAR 分析,因为只有来自鸟笼线圈的射频(RF)场会产生显著的 SAR。

方法

MP-pTx 采用来自传统鸟笼线圈的离频 RF 脉冲,辅以多通道匀场线圈阵列和/或梯度线圈的振荡 - 方向场。我们使用现实的 和 场图模拟 MP-pTx 在 7T 下创建均匀非选择性脑激励的能力。使用遗传算法和顺序二次规划优化 RF、匀场线圈阵列和梯度波形的幅度和相位。

结果

使用电流限制在 50 安培匝数以下的 32 通道匀场线圈阵列进行 1 毫秒 MP-pTx 激励,将传统鸟笼激励的横向磁化强度归一化均方根误差从 29%降低到 6.6%,比优化 kT 点位置和可比脉冲功率的 1 毫秒鸟笼线圈 5kT 点激励好近 40%。

结论

MP-pTx 方法在目标和方法上类似于传统的 pTx,但用更便宜的低频匀场线圈通道代替了并行 RF 通道。该方法将高场翻转角不均匀性降低到比 3T CP 模式更好的水平,与 7T pTx 相当,同时保留传统鸟笼激励的简单 SAR 特性,因为低频匀场线圈场产生的 SAR 可以忽略不计。