Interleaved Echo Planar Imaging on a Standard MRI System

Overview

Journal Magn Reson Med

Publisher Wiley

Specialty Radiology

Date 1994 Jan 1

PMID 8121272

Citations 29

Authors

K Butts

S J Riederer

R L Ehman

R M Thompson

C R Jack

Affiliations

Soon will be listed here.

Abstract

This work describes an interleaved echo planar imaging (EPI) method for use on a standard whole body scanner. The data acquisition is divided into two to eight repetitions rather than one to two, as implemented by dedicated EPI systems. Interleaving allows the use of a lower sampling bandwidth with a significant increase in signal-to-noise. The method also has the advantages of relative ease of implementation, no need for postprocessing to remove image distortion, and no need for shimming on a case-by-case basis. The interleaved EPI method was applied to two applications ideally suited to EPI: breathhold T2-weighted abdominal imaging and functional imaging. In vivo liver-lesion contrast as measured in a 35-patient study showed increased contrast for the interleaved EPI by an average factor of 1.21 (+/- 0.34) over conventional spin-echo imaging. CNR measurements showed the EPI to be comparable with conventional spin echo with a relative factor of 1.00 (+/- 0.36). Functional imaging with an eight-shot interleaved EPI sequence provided 128 x 128 images of cerebral activation during bilateral finger tapping.

Citing Articles

3D distortion-free, reduced FOV diffusion-prepared gradient echo at 3 T.

McElroy S, Tomi-Tricot R, Cleary J, Tan H, Kinsella S, Jeljeli S Magn Reson Med. 2024; 93(4):1471-1483.

PMID: 39462469 PMC: 11782725. DOI: 10.1002/mrm.30357.

Phase stabilization with motion compensated diffusion weighted imaging.

Hannum A, Cork T, Setsompop K, Ennis D Magn Reson Med. 2024; 92(6):2312-2327.

PMID: 38997801 PMC: 11444045. DOI: 10.1002/mrm.30218.

Feasibility study of super-resolution deep learning-based reconstruction using k-space data in brain diffusion-weighted images.

Matsuo K, Nakaura T, Morita K, Uetani H, Nagayama Y, Kidoh M Neuroradiology. 2023; 65(11):1619-1629.

PMID: 37673835 DOI: 10.1007/s00234-023-03212-y.

Tractography methods and findings in brain tumors and traumatic brain injury.

Yeh F, Irimia A, de Almeida Bastos D, Golby A Neuroimage. 2021; 245:118651.

PMID: 34673247 PMC: 8859988. DOI: 10.1016/j.neuroimage.2021.118651.

High-Resolution 3D Brain Diffusion Tensor Imaging at Ultrahigh Fields: Following Maturation on Juvenile and Adult Mice.

Yon M, Bao Q, Chitrit O, Henriques R, Shemesh N, Frydman L Front Neurosci. 2020; 14:590900.

PMID: 33328861 PMC: 7714913. DOI: 10.3389/fnins.2020.590900.