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A high-performance gradient insert for rapid and short-T imaging at full duty cycle.一种用于全工作周期快速短 T 成像的高性能梯度插入件。
Magn Reson Med. 2018 Jun;79(6):3256-3266. doi: 10.1002/mrm.26954. Epub 2017 Oct 5.
2
The effect of concomitant fields in fast spin echo acquisition on asymmetric MRI gradient systems.快速自旋回波采集中伴随磁场对非对称 MRI 梯度系统的影响。
Magn Reson Med. 2018 Mar;79(3):1354-1364. doi: 10.1002/mrm.26789. Epub 2017 Jun 22.
3
B concomitant field compensation for MRI systems employing asymmetric transverse gradient coils.采用非对称横向梯度线圈的 MRI 系统的共伴场补偿。
Magn Reson Med. 2018 Mar;79(3):1538-1544. doi: 10.1002/mrm.26790. Epub 2017 Jun 21.
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Multi-echo fMRI: A review of applications in fMRI denoising and analysis of BOLD signals.多回波 fMRI:在 fMRI 去噪和 BOLD 信号分析中的应用综述。
Neuroimage. 2017 Jul 1;154:59-80. doi: 10.1016/j.neuroimage.2017.03.033. Epub 2017 Mar 29.
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Pushing the limits of ultra-high resolution human brain imaging with SMS-EPI demonstrated for columnar level fMRI.利用 SMS-EPI 实现柱状水平 fMRI 的超高分辨率人类大脑成像的极限推进。
Neuroimage. 2018 Jan 1;164:155-163. doi: 10.1016/j.neuroimage.2017.02.020. Epub 2017 Feb 14.
6
Gradient nonlinearity calibration and correction for a compact, asymmetric magnetic resonance imaging gradient system.用于紧凑型非对称磁共振成像梯度系统的梯度非线性校准与校正
Phys Med Biol. 2017 Jan 21;62(2):N18-N31. doi: 10.1088/1361-6560/aa524f. Epub 2016 Dec 29.
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An improved asymmetric gradient coil design for high-resolution MRI head imaging.一种用于高分辨率MRI头部成像的改进型不对称梯度线圈设计。
Phys Med Biol. 2016 Dec 21;61(24):8875-8889. doi: 10.1088/1361-6560/61/24/8875. Epub 2016 Dec 2.
8
Gradient pre-emphasis to counteract first-order concomitant fields on asymmetric MRI gradient systems.用于抵消非对称MRI梯度系统上的一阶伴随场的梯度预加重。
Magn Reson Med. 2017 Jun;77(6):2250-2262. doi: 10.1002/mrm.26315. Epub 2016 Jul 4.
9
Technical Note: Compact three-tesla magnetic resonance imager with high-performance gradients passes ACR image quality and acoustic noise tests.技术说明:配备高性能梯度系统的紧凑型3特斯拉磁共振成像仪通过了美国放射学会(ACR)的图像质量和声学噪声测试。
Med Phys. 2016 Mar;43(3):1259-64. doi: 10.1118/1.4941362.
10
High slew-rate head-only gradient for improving distortion in echo planar imaging: Preliminary experience.用于改善回波平面成像中失真的高转换速率头部专用梯度:初步经验。
J Magn Reson Imaging. 2016 Sep;44(3):653-64. doi: 10.1002/jmri.25210. Epub 2016 Feb 26.

用于脑部和四肢成像的轻便、紧凑、高性能 3T MR 系统。

Lightweight, compact, and high-performance 3T MR system for imaging the brain and extremities.

机构信息

GE Global Research, Niskayuna, New York.

Department of Biomedical Engineering, Sungkyunkwan University, Suwon, South Korea.

出版信息

Magn Reson Med. 2018 Nov;80(5):2232-2245. doi: 10.1002/mrm.27175. Epub 2018 Mar 13.

DOI:10.1002/mrm.27175
PMID:29536587
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6107412/
Abstract

PURPOSE

To build and evaluate a small-footprint, lightweight, high-performance 3T MRI scanner for advanced brain imaging with image quality that is equal to or better than conventional whole-body clinical 3T MRI scanners, while achieving substantial reductions in installation costs.

METHODS

A conduction-cooled magnet was developed that uses less than 12 liters of liquid helium in a gas-charged sealed system, and standard NbTi wire, and weighs approximately 2000 kg. A 42-cm inner-diameter gradient coil with asymmetric transverse axes was developed to provide patient access for head and extremity exams, while minimizing magnet-gradient interactions that adversely affect image quality. The gradient coil was designed to achieve simultaneous operation of 80-mT/m peak gradient amplitude at a slew rate of 700 T/m/s on each gradient axis using readily available 1-MVA gradient drivers.

RESULTS

In a comparison of anatomical imaging in 16 patients using T -weighted 3D fluid-attenuated inversion recovery (FLAIR) between the compact 3T and whole-body 3T, image quality was assessed as equivalent to or better across several metrics. The ability to fully use a high slew rate of 700 T/m/s simultaneously with 80-mT/m maximum gradient amplitude resulted in improvements in image quality across EPI, DWI, and anatomical imaging of the brain.

CONCLUSIONS

The compact 3T MRI system has been in continuous operation at the Mayo Clinic since March 2016. To date, over 200 patient studies have been completed, including 96 comparison studies with a clinical 3T whole-body MRI. The increased gradient performance has reliably resulted in consistently improved image quality.

摘要

目的

构建和评估一款小型、轻便、高性能的 3T MRI 扫描仪,用于高级脑部成像,其图像质量与传统的全身临床 3T MRI 扫描仪相当或更好,同时大幅降低安装成本。

方法

开发了一种传导冷却磁体,该磁体在充气密封系统中使用的液氦少于 12 升,使用标准的 NbTi 线材,重量约为 2000 千克。开发了一种 42 厘米内径的梯度线圈,具有非对称的横向轴,以提供头和四肢检查的患者通道,同时最大限度地减少对图像质量产生不利影响的磁梯度相互作用。梯度线圈的设计旨在在每个梯度轴上以 700 T/m/s 的上升率实现 80 mT/m 峰值梯度幅度的同时操作,使用现成的 1-MVA 梯度驱动器。

结果

在 16 名患者的 T1 加权 3D 液体衰减反转恢复(FLAIR)解剖成像比较中,紧凑型 3T 和全身 3T 的图像质量在几个指标上被评估为等效或更好。能够同时充分利用 700 T/m/s 的高上升率和 80 mT/m 的最大梯度幅度,导致 EPI、DWI 和脑部解剖成像的图像质量得到改善。

结论

紧凑型 3T MRI 系统自 2016 年 3 月以来一直在梅奥诊所连续运行。迄今为止,已经完成了超过 200 项患者研究,包括 96 项与临床全身 3T MRI 的比较研究。增加的梯度性能可靠地导致了始终如一的图像质量改善。