Dynamic Multicoil Technique (DYNAMITE) MRI on Human Brain

Overview

Journal Magn Reson Med

Publisher Wiley

Specialty Radiology

Date 2020 Jun 17

PMID 32544274

Citations 7

Authors

Christoph Juchem

Sebastian Theilenberg

Chathura Kumaragamage

Michael Mullen

Lance DelaBarre

Gregor Adriany

Peter B Brown

Scott McIntyre

Terence W Nixon

Michael Garwood

Robin A de Graaf

Affiliations

Soon will be listed here.

Abstract

Purpose: Spatial encoding for MRI is generally based on linear x, y, and z magnetic field gradients generated by a set of dedicated gradient coils. We recently introduced the dynamic multicoil technique (DYNAMITE) for B field control and demonstrated DYNAMITE MRI in a preclinical MR environment. In this study, we report the first realization of DYNAMITE MRI of the in vivo human head.

Methods: Gradient fields for DYNAMITE MRI were generated with a 28-channel multicoil hardware arranged in 4 rows of 7 coils on a cylindrical surface (length 359 mm, diameter 344 mm, maximum 5 A per coil). DYNAMITE MRIs of a resolution phantom and in vivo human heads were acquired with multislice gradient-echo, multislice spin-echo, and 3D gradient-echo sequences. The resultant image fidelity was compared to that obtained with conventional gradient coil technology.

Results: DYNAMITE field control enabled the realization of all imaging sequences with average gradient errors ≤ 1%. DYNAMITE MRI provided image quality and sensitivity comparable to conventional gradient technology without any obvious artifacts. Some minor geometric deformations were noticed primarily in the image periphery as the result of regional field imperfections. The imperfections can be readily approximated theoretically through numerical integration of the Biot-Savart law and removed through image distortion correction.

Conclusion: The first realization of DYNAMITE MRI of the in vivo human head has been presented. The obtained image fidelity is comparable to MRI with conventional gradient coils, paving the way for full-fledged DYNAMITE MRI and B shim systems for human applications.

Citing Articles

High-quality lipid suppression and B0 shimming for human brain H MRSI.

Kumaragamage C, McIntyre S, Nixon T, De Feyter H, de Graaf R Neuroimage. 2024; 300:120845.

PMID: 39276817 PMC: 11540284. DOI: 10.1016/j.neuroimage.2024.120845.

Advancements in MR hardware systems and magnetic field control: B shimming, RF coils, and gradient techniques for enhancing magnetic resonance imaging and spectroscopy.

Shang Y, Simegn G, Gillen K, Yang H, Han H Psychoradiology. 2024; 4:kkae013.

PMID: 39258223 PMC: 11384915. DOI: 10.1093/psyrad/kkae013.

Practical utilization of nonlinear spatial encoding: Fast field mapping and FRONSAC-wave.

Zhang H, Constable R, Galiana G Magn Reson Med. 2024; 92(3):1035-1047.

PMID: 38651264 PMC: 11209788. DOI: 10.1002/mrm.30119.

Design and realization of a multi-coil array for B field control in a compact 1.5T head-only MRI scanner.

Theilenberg S, Shang Y, Ghazouani J, Kumaragamage C, Nixon T, McIntyre S Magn Reson Med. 2023; 90(3):1228-1241.

PMID: 37145035 PMC: 10330274. DOI: 10.1002/mrm.29692.

Thermal variation in gradient response: measurement and modeling.

Nussbaum J, Dietrich B, Wilm B, Pruessmann K Magn Reson Med. 2021; 87(5):2224-2238.

PMID: 34932233 PMC: 9303907. DOI: 10.1002/mrm.29123.

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