Design of a shim coil array matched to the human brain anatomy

Jia, Feng; Elshatlawy, Hatem; Aghaeifar, Ali; Chu, Ying‐Hua; Hsu, Yi‐Cheng; Littin, Sebastian; Kroboth, Stefan; Yu, Huijun; Amrein, Philipp; Gao, Xiang; Yang, Wenchao; LeVan, Pierre; Scheffler, Klaus; Zaitsev, Maxim

doi:10.1002/mrm.28016

Cited by 12 publications

(17 citation statements)

References 30 publications

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“…We remark that similar approaches have been presented recently (Jia et al 2020, Arango et al 2019, Can et al 2019. In Jia et al (2020), fieldmaps are shimmed by unconstrained SH of some order (5 th or 6 th ), then SO-SFs are computed under power dissipation constraints, tuned to achieve a residual field equivalent to that obtained by the SH shimming. Therefore, an indirect minimization of power dissipation is performed.…”

Section: Introductionsupporting

confidence: 79%

A fieldmap-driven few-channel shim coil design for MRI of the human brain

Meneses¹,

Amadon²

2021

Phys. Med. Biol.

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We exploit the inter-subject similarity of inhomogeneous static magnetic field patterns arising in the human brain under MRI examination to design a small set of shim coils providing performance equivalent to numerous coils based on high-order Spherical Harmonics corrections. A hundred brain B 0-maps were first collected at 3 T. Ideal subject-specific electric current density stream functions are then computed with low power constraints, on a cylindrical surface. This step is repeated over tens of brain maps so that a Principal Component Analysis can be applied to the stream functions; the main components result in the small set of coils. Both 50-subject hold-out and 10-fold cross-validation are employed to evaluate consistency of the proposed system performance over a posteriori subjects. Simulations show that only 3 cylindrical coils manage to capture the principal magnetic field profiles in the human brain, thus providing a better static field inhomogeneity mitigation than that obtained from 16 unlimited-power high-order Spherical Harmonics coils, with inhomogeneity greatly reduced in the pre-frontal cortex compared to 2 nd-order shimmed baseline field acquisitions. The approach provides a very reduced channel count system for mitigating complex B 0-inhomogeneity patterns. Thus, a compact, cost-effective system could be conceived and driven by relatively low-budget electronics. The method should therefore have a strong impact in both Ultra-High and portable low-field MRI/MRS. Moreover, this technique can be applied to the design of shim coils addressing anatomies other than the brain.

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Section: Introductionsupporting

confidence: 79%

A fieldmap-driven few-channel shim coil design for MRI of the human brain

Meneses¹,

Amadon²

2021

Phys. Med. Biol.

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“…An alternative MC shimming approach for UHF MRI is to place dedicated multi‐turn shim coils just outside the transmit coil shield, as recently demonstrated at 9.4T 13,60 . Compared to AC/DC arrays, this approach provides (i) reduced interaction of DC shim components with the transmit coil(s), (ii) less complexity for the receive‐array design, and (iii) greater flexibility to use target field‐based shim coil designs optimized for the human head anatomy 55,58,61 . However, shim coil placement outside the shield could be geometrically constrained, for example if a head‐gradient insert coil is used.…”

Section: Discussionmentioning

confidence: 99%

“…A zoomed inset shows the improvements in outlier voxels achieved using MC shimming provides (i) reduced interaction of DC shim components with the transmit coil(s), (ii) less complexity for the receive-array design, and (iii) greater flexibility to use target field-based shim coil designs optimized for the human head anatomy. 55,58,61 However, shim coil placement outside the shield could be geometrically constrained, for example if a head-gradient insert coil is used. Also, the higher inductance may be an obstacle for S6) some emerging local field control applications 62,63 where waveforms with KHz-range frequencies (eg, 1-25 KHz) are played out on MC arrays to provide supplementary spatial encoding.…”

Section: Discussionmentioning

confidence: 99%

A 31‐channel integrated “AC/DC” B₀ shim and radiofrequency receive array coil for improved 7T MRI

Stockmann

Arango

Witzel

et al. 2021

Magnetic Resonance in Med

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Purpose To test an integrated “AC/DC” array approach at 7T, where B0 inhomogeneity poses an obstacle for functional imaging, diffusion‐weighted MRI, MR spectroscopy, and other applications. Methods A close‐fitting 7T 31‐channel (31‐ch) brain array was constructed and tested using combined Rx and ΔB0 shim channels driven by a set of rapidly switchable current amplifiers. The coil was compared to a shape‐matched 31‐ch reference receive‐only array for RF safety, signal‐to‐noise ratio (SNR), and inter‐element noise correlation. We characterize the coil array’s ability to provide global and dynamic (slice‐optimized) shimming using ΔB0 field maps and echo planar imaging (EPI) acquisitions. Results The SNR and average noise correlation were similar to the 31‐ch reference array. Global and slice‐optimized shimming provide 11% and 40% improvements respectively compared to baseline second‐order spherical harmonic shimming. Birdcage transmit coil efficiency was similar for the reference and AC/DC array setups. Conclusion Adding ΔB0 shim capability to a 31‐ch 7T receive array can significantly boost 7T brain B0 homogeneity without sacrificing the array’s rdiofrequency performance, potentially improving ultra‐high field neuroimaging applications that are vulnerable to off‐resonance effects.

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“…Further design objectives such as the reduction of mechanical force and torque have been introduced 11 . Since the power requirements of actively shielded cylindrical gradient coils tend to increase sharply with the bore radius of the MR scanner, 5 non‐cylindrical or segmented current‐carrying surfaces have been investigated to locally increase gradient efficiency by a better geometrically match to the human body 11‐15 …”

Section: Introductionmentioning

confidence: 99%

CoilGen: Open‐source MR coil layout generator

Amrein

Jia

Zaitsev

et al. 2022

Magnetic Resonance in Med

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Purpose: An automated algorithm for generating realizable MR gradient and shim coil layouts based on the boundary element method is presented here. The overall goal is to reduce postprocessing effort and thus enable for rapid prototyping of new coil designs. For a given surface mesh and target field, the algorithm generates a connected, non-overlapping wire path. Methods: The proposed algorithm consists of several steps: Stream function optimization, two-dimensional surface projection, potential discretization, topological contour sorting, opening and interconnecting contours, and finally adding non-overlapping return paths. Several technical parameters such as current strength, inductance and field accuracy are assessed for quality control. Results:The proposed method is successfully demonstrated in four different examples. All exemplary results demonstrate high accuracy with regard to reaching the respective target field. The optimal discretization for a given stream function is found by generating multiple layouts while varying the input parameter values. Conclusion:The presented algorithm allows for a rapid generation of interconnected coil layouts with high flexibility and low discretization error. This enables to reduce the overall post-processing effort. The source code of this work is publicly available (https://github.com/Philipp-MR/CoilGen).

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Design of a shim coil array matched to the human brain anatomy

Cited by 12 publications

References 30 publications

A fieldmap-driven few-channel shim coil design for MRI of the human brain

A fieldmap-driven few-channel shim coil design for MRI of the human brain

A 31‐channel integrated “AC/DC” B₀ shim and radiofrequency receive array coil for improved 7T MRI

CoilGen: Open‐source MR coil layout generator

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Design of a shim coil array matched to the human brain anatomy

Cited by 12 publications

References 30 publications

A fieldmap-driven few-channel shim coil design for MRI of the human brain

A fieldmap-driven few-channel shim coil design for MRI of the human brain

A 31‐channel integrated “AC/DC” B0 shim and radiofrequency receive array coil for improved 7T MRI

CoilGen: Open‐source MR coil layout generator

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Product

Resources

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A 31‐channel integrated “AC/DC” B₀ shim and radiofrequency receive array coil for improved 7T MRI