Fast and silent MRI using nonlinear gradient fields at the ultrasonic gradient switching frequency of 20 kHz with a Point Spread Function framework reconstruction

Publication date

2024-12

Authors

McGrory, Michael J B
Versteeg, EdwinORCID 0000-0003-3235-3970
Sbrizzi, AlessandroORCID 0000-0003-3276-4542ISNI 0000000396833383
van den Berg, CATORCID 0000-0002-5565-6889
Klomp, Dennis W.J.ORCID 0000-0002-5884-5386ISNI 0000000396514008
Siero, J. C.W.ORCID 0000-0001-5079-2868ISNI 0000000394978810

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Abstract

PURPOSE: To demonstrate the feasibility of using a nonlinear gradient field for spatial encoding at the ultrasonic switching frequency of 20 kHz and present a framework to reconstruct data acquired in this way. METHODS: Nonlinear encoding at 20 kHz was realized by using a single-axis silent gradient insert for imaging in the periphery, that, is the nonlinear region, of the gradient field. The gradient insert induces a rapidly oscillating gradient field in the phase-encode direction, which enables nonlinear encoding when combined with a Cartesian readout from the linear whole-body gradients. Data from a 2D gradient echo sequence were reconstructed using a point spread function (PSF) framework. Accelerated scans were also simulated via retrospective undersampling (R = 1 to R = 8) to determine the effectiveness of the PSF-framework for accelerated imaging. RESULTS: Using a nonlinear gradient field switched at 20 kHz and the PSF-framework resulted in images of comparable quality to images from conventional Cartesian linear encoding. At increased acceleration factors (R ≤ 8), the PSF-framework outperformed linear SENSE reconstructions by improved controlling of aliasing artifacts. CONCLUSION: Using the PSF-framework, images of comparable quality to conventional SENSE reconstructions are possible via combining traditional linear and ultrasonic oscillating nonlinear encoding fields. Using nonlinear gradient fields relaxes the demand for strictly linear gradient fields, enabling much higher slew rates with a reduced risk of peripheral nerve stimulation or cardiac stimulation, which could aid in extension to ultrasonic whole-body MRI. The lack of aliasing artifacts also highlights the potential of accelerated imaging using the PSF-framework.

Keywords

MRI, nonlinear encoding, nonlinear gradients, point spread function, Radiology Nuclear Medicine and imaging

Citation

McGrory, M J B, Versteeg, E, Sbrizzi, A, van den Berg, C A T, Klomp, D & Siero, J C W 2024, 'Fast and silent MRI using nonlinear gradient fields at the ultrasonic gradient switching frequency of 20 kHz with a Point Spread Function framework reconstruction', Magnetic Resonance in Medicine, vol. 92, no. 6, pp. 2734-2748. https://doi.org/10.1002/mrm.30230