OBJECT: The investigation of three-dimensional radial, zero-echo time (TE) imaging for high-resolution, free-breathing magnetic resonance (MR) lung imaging using prospective and retrospective motion correction. MATERIALS AND METHODS: Zero-TE was implemented similarly to the rotating-ultra-fast-imaging-sequence, providing 3D, isotropic, radial imaging with proton density contrast. Respiratory motion was addressed using prospective triggering (PT), prospective gating (PG) and retrospective gating (RG) with physiological signals obtained from a respiratory belt and interleaved pencil beam and DC navigators. The methods were demonstrated on four healthy volunteers at 3T. RESULTS: 3D, radial zero-TE imaging with high imaging bandwidth and nominally zero echo-time enables efficient capture of short-lived signals from the lung parenchyma and the vessels. Compared to Cartesian encoding, unaccounted for free-breathing respiration resulted in only benign blurring artifacts confined to the origin of motion. Breath holding froze respiration but achieved only limited image resolution (~1.8 mm, 30 s). PT and PG obtained similar quality expiratory-phase images at 1.2 mm resolution in ~6 min scan time. RG allowed multi-phase imaging in ~15 min, derived from eight individually stored averages. CONCLUSION: Zero-TE appears to be an attractive pulse sequence for 3D isotropic lung imaging. Prospective and retrospective approaches provide high-quality, free-breathing MR lung imaging within reasonable scan time.
OBJECT: The investigation of three-dimensional radial, zero-echo time (TE) imaging for high-resolution, free-breathing magnetic resonance (MR) lung imaging using prospective and retrospective motion correction. MATERIALS AND METHODS: Zero-TE was implemented similarly to the rotating-ultra-fast-imaging-sequence, providing 3D, isotropic, radial imaging with proton density contrast. Respiratory motion was addressed using prospective triggering (PT), prospective gating (PG) and retrospective gating (RG) with physiological signals obtained from a respiratory belt and interleaved pencil beam and DC navigators. The methods were demonstrated on four healthy volunteers at 3T. RESULTS: 3D, radial zero-TE imaging with high imaging bandwidth and nominally zero echo-time enables efficient capture of short-lived signals from the lung parenchyma and the vessels. Compared to Cartesian encoding, unaccounted for free-breathing respiration resulted in only benign blurring artifacts confined to the origin of motion. Breath holding froze respiration but achieved only limited image resolution (~1.8 mm, 30 s). PT and PG obtained similar quality expiratory-phase images at 1.2 mm resolution in ~6 min scan time. RG allowed multi-phase imaging in ~15 min, derived from eight individually stored averages. CONCLUSION: Zero-TE appears to be an attractive pulse sequence for 3D isotropic lung imaging. Prospective and retrospective approaches provide high-quality, free-breathing MR lung imaging within reasonable scan time.
Authors: Florian Knoll; Christian Clason; Kristian Bredies; Martin Uecker; Rudolf Stollberger Journal: Magn Reson Med Date: 2011-06-27 Impact factor: 4.668
Authors: Smitha Rajaram; Andrew J Swift; David Capener; Adam Telfer; Christine Davies; Catherine Hill; Robin Condliffe; Charles Elliot; Judith Hurdman; David G Kiely; Jim M Wild Journal: Radiology Date: 2012-03-06 Impact factor: 11.105
Authors: Frank Wolfram; Daniel Güllmar; Joachim Böttcher; Harald Schubert; Sabine Bischoff; Jürgen R Reichenbach; Thomas Günther Lesser Journal: MAGMA Date: 2019-06-01 Impact factor: 2.310
Authors: Nicholas S Burris; Kevin M Johnson; Peder E Z Larson; Michael D Hope; Scott K Nagle; Spencer C Behr; Thomas A Hope Journal: Radiology Date: 2015-07-02 Impact factor: 11.105
Authors: Kevin M Rychert; Gang Zhu; Maciej M Kmiec; Venkata K Nemani; Benjamin B Williams; Ann Barry Flood; Harold M Swartz; Barjor Gimi Journal: Proc SPIE Int Soc Opt Eng Date: 2015-03-19
Authors: Nara S Higano; Andrew D Hahn; Jean A Tkach; Xuefeng Cao; Laura L Walkup; Robert P Thomen; Stephanie L Merhar; Paul S Kingma; Sean B Fain; Jason C Woods Journal: Magn Reson Med Date: 2016-03-12 Impact factor: 4.668
Authors: Peder E Z Larson; Misung Han; Roland Krug; Angela Jakary; Sarah J Nelson; Daniel B Vigneron; Roland G Henry; Graeme McKinnon; Douglas A C Kelley Journal: MAGMA Date: 2015-12-24 Impact factor: 2.310