Literature DB >> 16398417

Rapid polarizing field cycling in magnetic resonance imaging.

Nathaniel I Matter1, Greig C Scott, Thomas Grafendorfer, Albert Macovski, Steven M Conolly.   

Abstract

We describe the electronics for controlling the independently pulsed polarizing coil in a prepolarized magnetic resonance imaging (PMRI) system and demonstrate performance with free induction decay measurements and in vivo imaging experiments. A PMRI scanner retains all the benefits of acquiring MRI data at low field, but with the higher signal of the polarizing field. Rapidly and efficiently ramping the polarizing coil without disturbing the data acquisition is one of the major challenges of PMRI. With our modular hardware design, we successfully ramp the 0.4-T polarizing coil of a wrist-sized PMRI scanner at up to 100 T/s without causing image artifacts or otherwise degrading data acquisition.

Mesh:

Year:  2006        PMID: 16398417     DOI: 10.1109/TMI.2005.861014

Source DB:  PubMed          Journal:  IEEE Trans Med Imaging        ISSN: 0278-0062            Impact factor:   10.048


  10 in total

1.  Pulsed Excitation in Magnetic Particle Imaging.

Authors:  Zhi Wei Tay; Daniel Hensley; Jie Ma; Prashant Chandrasekharan; Bo Zheng; Patrick Goodwill; Steven Conolly
Journal:  IEEE Trans Med Imaging       Date:  2019-02-11       Impact factor: 10.048

2.  Conductive shield for ultra-low-field magnetic resonance imaging: Theory and measurements of eddy currents.

Authors:  Koos C J Zevenhoven; Sarah Busch; Michael Hatridge; Fredrik Oisjöen; Risto J Ilmoniemi; John Clarke
Journal:  J Appl Phys       Date:  2014-03-11       Impact factor: 2.546

3.  Design of a sustainable prepolarizing magnetic resonance imaging system for infant hydrocephalus.

Authors:  Johnes Obungoloch; Joshua R Harper; Steven Consevage; Igor M Savukov; Thomas Neuberger; Srinivas Tadigadapa; Steven J Schiff
Journal:  MAGMA       Date:  2018-04-11       Impact factor: 2.310

4.  Multifield and inverse-contrast switching of magnetocaloric high contrast ratio MRI labels.

Authors:  Mladen Barbic; Stephen J Dodd; Hatem ElBidweihy; Neil R Dilley; Barbara Marcheschi; Alan L Huston; H Douglas Morris; Alan P Koretsky
Journal:  Magn Reson Med       Date:  2020-07-07       Impact factor: 3.737

5.  T 1 relaxation measurement of ex-vivo breast cancer tissues at ultralow magnetic fields.

Authors:  Seong-Joo Lee; Jeong Hyun Shim; Kiwoong Kim; Seong-Min Hwang; Kwon Kyu Yu; Sanghyun Lim; Jae Ho Han; Hyunee Yim; Jang-Hee Kim; Yong Sik Jung; Ku Sang Kim
Journal:  Biomed Res Int       Date:  2015-01-29       Impact factor: 3.411

6.  A whole-body Fast Field-Cycling scanner for clinical molecular imaging studies.

Authors:  Lionel M Broche; P James Ross; Gareth R Davies; Mary-Joan MacLeod; David J Lurie
Journal:  Sci Rep       Date:  2019-07-18       Impact factor: 4.379

Review 7.  Approaches in cooling of resistive coil-based low-field Magnetic Resonance Imaging (MRI) systems for application in low resource settings.

Authors:  Faith Natukunda; Theodora M Twongyirwe; Steven J Schiff; Johnes Obungoloch
Journal:  BMC Biomed Eng       Date:  2021-02-12

8.  Prepolarized MRI of hard tissues and solid-state matter.

Authors:  Jose Borreguero Morata; José M González; Eduardo Pallás; Juan P Rigla; José M Algarín; Rubén Bosch; Fernando Galve; Daniel Grau-Ruiz; Rubén Pellicer; Alfonso Ríos; José M Benlloch; Joseba Alonso
Journal:  NMR Biomed       Date:  2022-04-20       Impact factor: 4.478

9.  An Unmatched Radio Frequency Chain for Low-Field Magnetic Resonance Imaging.

Authors:  Joshua R Harper; Cristhian Zárate; Federico Krauch; Ivan Muhumuza; Jorge Molina; Johnes Obungoloch; Steven J Schiff
Journal:  Front Phys       Date:  2021

10.  Fast Room Temperature Very Low Field-Magnetic Resonance Imaging System Compatible with MagnetoEncephaloGraphy Environment.

Authors:  Angelo Galante; Raffaele Sinibaldi; Allegra Conti; Cinzia De Luca; Nadia Catallo; Piero Sebastiani; Vittorio Pizzella; Gian Luca Romani; Antonello Sotgiu; Stefania Della Penna
Journal:  PLoS One       Date:  2015-12-02       Impact factor: 3.240
  10 in total

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