Fast spin‐echo approach for accelerated B1 gradient–based MRI

Author:

Froelich Taylor1ORCID,DelaBarre Lance1,Wang Paul12ORCID,Radder Jerahmie1,Torres Efraín12ORCID,Garwood Michael12ORCID

Affiliation:

1. Center for Magnetic Resonance Research and Department of Radiology University of Minnesota Minneapolis Minnesota USA

2. Department of Biomedical Engineering University of Minnesota Minneapolis Minnesota USA

Abstract

PurposeTo expand on the previously developed ‐encoding technique, frequency‐modulated Rabi‐encoded echoes (FREE), to perform accelerated image acquisition by collecting multiple lines of k‐space in an echo train.MethodsFREE uses adiabatic full‐passage pulses and a spatially varying RF field to encode unique spatial information without the use of traditional B0 gradients. The original implementation relied on acquiring single lines of k‐space, leading to long acquisitions. In this work, an acceleration scheme is presented in which multiple echoes are acquired in a single shot, analogous to conventional fast spin‐echo sequences. Theoretical analysis and computer simulations investigated the feasibility of this approach and presented a framework to analyze important imaging parameters of FREE‐based sequences. Experimentally, the multi‐echo approach was compared with conventional phase‐encoded images of the human visual cortex using a simple surface transceiver coil. Finally, different contrasts demonstrated the clinical versatility of the new accelerated sequence.ResultsImages were acquired with an acceleration factor of 3.9, compared with the previous implementation of FREE, without exceeding specific absorption rate limits. Different contrasts can easily be acquired without major modifications, including inversion recovery–type images.ConclusionFREE initially illustrated the feasibility of performing slice‐selective 2D imaging of the human brain without the need for a B0 gradient along the y‐direction. The multi‐echo version maintains the advantages that encoding provides but represents an important step toward improving the clinical feasibility of such sequences. Additional acceleration and more advanced reconstruction techniques could further improve the clinical viability of FREE‐based techniques.

Funder

National Institute of Biomedical Imaging and Bioengineering

Publisher

Wiley

Subject

Radiology, Nuclear Medicine and imaging

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