Magnetic Resonance in Medicine

Cover image for Vol. 73 Issue 2

February 2015

Volume 73, Issue 2

Pages spcone–spcone, 451–900

  1. Cover Image

    1. Top of page
    2. Cover Image
    3. Masthead
    4. Spectroscopic Methodology—Full Papers
    5. Preclinical and Clinical Spectroscopy—Full Paper
    6. Imaging Methodology—Rapid Communication
    7. Imaging Methodology—Full Papers
    8. Imaging Methodology—Notes
    9. Preclinical and Clinical Imaging—Full Papers
    10. Preclinical and Clinical Imaging—Note
    11. Biophysics and Basic Biomedical Research—Rapid Communication
    12. Biophysics and Basic Biomedical Research—Full Paper
    13. Biophysics and Basic Biomedical Research—Note
    14. Computer Processing and Modeling—Full Papers
    15. Computer Processing and Modeling—Notes
    16. Hardware and Instrumentation—Full Papers
    17. Hardware and Instrumentation—Note
    1. PROMISE: Parallel-imaging and compressed-sensing reconstruction of multicontrast imaging using SharablE information (page spcone)

      Enhao Gong, Feng Huang, Kui Ying, Wenchuan Wu, Shi Wang and Chun Yuan

      Article first published online: 16 JAN 2015 | DOI: 10.1002/mrm.25625

  2. Masthead

    1. Top of page
    2. Cover Image
    3. Masthead
    4. Spectroscopic Methodology—Full Papers
    5. Preclinical and Clinical Spectroscopy—Full Paper
    6. Imaging Methodology—Rapid Communication
    7. Imaging Methodology—Full Papers
    8. Imaging Methodology—Notes
    9. Preclinical and Clinical Imaging—Full Papers
    10. Preclinical and Clinical Imaging—Note
    11. Biophysics and Basic Biomedical Research—Rapid Communication
    12. Biophysics and Basic Biomedical Research—Full Paper
    13. Biophysics and Basic Biomedical Research—Note
    14. Computer Processing and Modeling—Full Papers
    15. Computer Processing and Modeling—Notes
    16. Hardware and Instrumentation—Full Papers
    17. Hardware and Instrumentation—Note
    1. Masthead, Volume 73, Issue 2 (page spcone)

      Article first published online: 16 JAN 2015 | DOI: 10.1002/mrm.25626

  3. Spectroscopic Methodology—Full Papers

    1. Top of page
    2. Cover Image
    3. Masthead
    4. Spectroscopic Methodology—Full Papers
    5. Preclinical and Clinical Spectroscopy—Full Paper
    6. Imaging Methodology—Rapid Communication
    7. Imaging Methodology—Full Papers
    8. Imaging Methodology—Notes
    9. Preclinical and Clinical Imaging—Full Papers
    10. Preclinical and Clinical Imaging—Note
    11. Biophysics and Basic Biomedical Research—Rapid Communication
    12. Biophysics and Basic Biomedical Research—Full Paper
    13. Biophysics and Basic Biomedical Research—Note
    14. Computer Processing and Modeling—Full Papers
    15. Computer Processing and Modeling—Notes
    16. Hardware and Instrumentation—Full Papers
    17. Hardware and Instrumentation—Note
    1. Detection of glutamate, glutamine, and glutathione by radiofrequency suppression and echo time optimization at 7 tesla (pages 451–458)

      Li An, Shizhe Li, James B. Murdoch, Maria Ferraris Araneta, Christopher Johnson and Jun Shen

      Article first published online: 28 FEB 2014 | DOI: 10.1002/mrm.25150

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    2. Reduction of voxel bleeding in highly accelerated parallel 1H MRSI by direct control of the spatial response function (pages 469–480)

      Thomas Kirchner, Ariane Fillmer, Jeffrey Tsao, Klaas Paul Pruessmann and Anke Henning

      Article first published online: 28 FEB 2014 | DOI: 10.1002/mrm.25185

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  4. Preclinical and Clinical Spectroscopy—Full Paper

    1. Top of page
    2. Cover Image
    3. Masthead
    4. Spectroscopic Methodology—Full Papers
    5. Preclinical and Clinical Spectroscopy—Full Paper
    6. Imaging Methodology—Rapid Communication
    7. Imaging Methodology—Full Papers
    8. Imaging Methodology—Notes
    9. Preclinical and Clinical Imaging—Full Papers
    10. Preclinical and Clinical Imaging—Note
    11. Biophysics and Basic Biomedical Research—Rapid Communication
    12. Biophysics and Basic Biomedical Research—Full Paper
    13. Biophysics and Basic Biomedical Research—Note
    14. Computer Processing and Modeling—Full Papers
    15. Computer Processing and Modeling—Notes
    16. Hardware and Instrumentation—Full Papers
    17. Hardware and Instrumentation—Note
  5. Imaging Methodology—Rapid Communication

    1. Top of page
    2. Cover Image
    3. Masthead
    4. Spectroscopic Methodology—Full Papers
    5. Preclinical and Clinical Spectroscopy—Full Paper
    6. Imaging Methodology—Rapid Communication
    7. Imaging Methodology—Full Papers
    8. Imaging Methodology—Notes
    9. Preclinical and Clinical Imaging—Full Papers
    10. Preclinical and Clinical Imaging—Note
    11. Biophysics and Basic Biomedical Research—Rapid Communication
    12. Biophysics and Basic Biomedical Research—Full Paper
    13. Biophysics and Basic Biomedical Research—Note
    14. Computer Processing and Modeling—Full Papers
    15. Computer Processing and Modeling—Notes
    16. Hardware and Instrumentation—Full Papers
    17. Hardware and Instrumentation—Note
    1. Multi-echo Length and Offset VARied Saturation (MeLOVARS) method for improved CEST imaging (pages 488–496)

      Xiaolei Song, Jiadi Xu, Shuli Xia, Nirbhay N. Yadav, Bachchu Lal, John Laterra, Jeff W.M. Bulte, Peter C.M. van Zijl and Michael T. McMahon

      Article first published online: 16 DEC 2014 | DOI: 10.1002/mrm.25567

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  6. Imaging Methodology—Full Papers

    1. Top of page
    2. Cover Image
    3. Masthead
    4. Spectroscopic Methodology—Full Papers
    5. Preclinical and Clinical Spectroscopy—Full Paper
    6. Imaging Methodology—Rapid Communication
    7. Imaging Methodology—Full Papers
    8. Imaging Methodology—Notes
    9. Preclinical and Clinical Imaging—Full Papers
    10. Preclinical and Clinical Imaging—Note
    11. Biophysics and Basic Biomedical Research—Rapid Communication
    12. Biophysics and Basic Biomedical Research—Full Paper
    13. Biophysics and Basic Biomedical Research—Note
    14. Computer Processing and Modeling—Full Papers
    15. Computer Processing and Modeling—Notes
    16. Hardware and Instrumentation—Full Papers
    17. Hardware and Instrumentation—Note
    1. Phase contrast MRI with flow compensation view sharing (pages 505–513)

      Da Wang, Jiaxin Shao, Stanislas Rapacchi, Matthew J. Middione, Daniel B. Ennis and Peng Hu

      Article first published online: 14 FEB 2014 | DOI: 10.1002/mrm.25133

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    2. On the accuracy of T1 mapping: Searching for common ground (pages 514–522)

      Nikola Stikov, Mathieu Boudreau, Ives R. Levesque, Christine L. Tardif, Joëlle K. Barral and G. Bruce Pike

      Article first published online: 27 FEB 2014 | DOI: 10.1002/mrm.25135

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    3. Steady-state functional MRI using spoiled small-tip fast recovery imaging (pages 536–543)

      Hao Sun, Jeffrey A. Fessler, Douglas C. Noll and Jon-Fredrik Nielsen

      Article first published online: 11 MAR 2014 | DOI: 10.1002/mrm.25146

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    4. Susceptibility-based analysis of dynamic gadolinium bolus perfusion MRI (pages 544–554)

      David Bonekamp, Peter B. Barker, Richard Leigh, Peter C.M. van Zijl and Xu Li

      Article first published online: 25 FEB 2014 | DOI: 10.1002/mrm.25144

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    5. Three-dimensional pulmonary perfusion MRI with radial ultrashort echo time and spatial–temporal constrained reconstruction (pages 555–564)

      Grzegorz Bauman, Kevin M. Johnson, Laura C. Bell, Julia V. Velikina, Alexey A. Samsonov, Scott K. Nagle and Sean B. Fain

      Article first published online: 6 MAR 2014 | DOI: 10.1002/mrm.25158

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    6. Real-time correction of rigid body motion-induced phase errors for diffusion-weighted steady-state free precession imaging (pages 565–576)

      Rafael O'Halloran, Murat Aksoy, Eric Aboussouan, Eric Peterson, Anh Van and Roland Bammer

      Article first published online: 8 APR 2014 | DOI: 10.1002/mrm.25159

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    7. Robust cardiac BOLD MRI using an fMRI-like approach with repeated stress paradigms (pages 577–585)

      Aurelien F. Stalder, Michaela Schmidt, Andreas Greiser, Peter Speier, Jens Guehring, Matthias G. Friedrich and Edgar Mueller

      Article first published online: 10 MAR 2014 | DOI: 10.1002/mrm.25164

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    8. Improving chemical shift encoded water–fat separation using object-based information of the magnetic field inhomogeneity (pages 597–604)

      Samir D. Sharma, Nathan S. Artz, Diego Hernando, Debra E. Horng and Scott B. Reeder

      Article first published online: 28 FEB 2014 | DOI: 10.1002/mrm.25163

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    9. Slab profile encoding (PEN) for minimizing slab boundary artifact in three-dimensional diffusion-weighted multislab acquisition (pages 605–613)

      Anh T. Van, Murat Aksoy, Samantha J. Holdsworth, Daniel Kopeinigg, Sjoerd B. Vos and Roland Bammer

      Article first published online: 1 APR 2014 | DOI: 10.1002/mrm.25169

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    10. Magnetization transfer from inhomogeneously broadened lines: A potential marker for myelin (pages 614–622)

      Gopal Varma, Guillaume Duhamel, Cedric de Bazelaire and David C. Alsop

      Article first published online: 6 MAR 2014 | DOI: 10.1002/mrm.25174

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    11. Optimized three-dimensional sodium imaging of the human heart on a clinical 3T scanner (pages 623–632)

      Neville D. Gai, Carlos Rochitte, Marcelo S. Nacif and David A. Bluemke

      Article first published online: 17 MAR 2014 | DOI: 10.1002/mrm.25175

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    12. Dynamic inversion time for improved 3D late gadolinium enhancement imaging in patients with atrial fibrillation (pages 646–654)

      Jennifer Keegan, Peter D. Gatehouse, Shouvik Haldar, Ricardo Wage, Sonya V. Babu-Narayan and David N. Firmin

      Article first published online: 6 MAR 2014 | DOI: 10.1002/mrm.25190

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  7. Imaging Methodology—Notes

    1. Top of page
    2. Cover Image
    3. Masthead
    4. Spectroscopic Methodology—Full Papers
    5. Preclinical and Clinical Spectroscopy—Full Paper
    6. Imaging Methodology—Rapid Communication
    7. Imaging Methodology—Full Papers
    8. Imaging Methodology—Notes
    9. Preclinical and Clinical Imaging—Full Papers
    10. Preclinical and Clinical Imaging—Note
    11. Biophysics and Basic Biomedical Research—Rapid Communication
    12. Biophysics and Basic Biomedical Research—Full Paper
    13. Biophysics and Basic Biomedical Research—Note
    14. Computer Processing and Modeling—Full Papers
    15. Computer Processing and Modeling—Notes
    16. Hardware and Instrumentation—Full Papers
    17. Hardware and Instrumentation—Note
    1. You have free access to this content
    2. Hexagonal undersampling for faster MRI near metallic implants (pages 662–668)

      Bragi Sveinsson, Pauline W. Worters, Garry E. Gold and Brian A. Hargreaves

      Article first published online: 18 FEB 2014 | DOI: 10.1002/mrm.25132

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    3. Simultaneous acquisition of image and navigator slices using CAIPIRINHA for 4D MRI (pages 669–676)

      Zarko Celicanin, Oliver Bieri, Frank Preiswerk, Philippe Cattin, Klaus Scheffler and Francesco Santini

      Article first published online: 24 FEB 2014 | DOI: 10.1002/mrm.25134

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    4. Gap cycling for SWIFT (pages 677–682)

      Curtis A. Corum, Djaudat Idiyatullin, Carl J. Snyder and Michael Garwood

      Article first published online: 24 FEB 2014 | DOI: 10.1002/mrm.25141

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    5. Iterative projection onto convex sets for quantitative susceptibility mapping (pages 697–703)

      Weiran Deng, Fernando Boada, Benedikt A. Poser, Claudiu Schirda and Victor Andrew Stenger

      Article first published online: 6 MAR 2014 | DOI: 10.1002/mrm.25155

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    6. Lipid elimination with an echo-shifting N/2-ghost acquisition (LEENA) MRI (pages 711–717)

      Lan Lu, Shannon B. Donnola, Michaela Koontz, Mark A. Griswold, Jeffrey L. Duerk and Chris A. Flask

      Article first published online: 17 MAR 2014 | DOI: 10.1002/mrm.25177

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  8. Preclinical and Clinical Imaging—Full Papers

    1. Top of page
    2. Cover Image
    3. Masthead
    4. Spectroscopic Methodology—Full Papers
    5. Preclinical and Clinical Spectroscopy—Full Paper
    6. Imaging Methodology—Rapid Communication
    7. Imaging Methodology—Full Papers
    8. Imaging Methodology—Notes
    9. Preclinical and Clinical Imaging—Full Papers
    10. Preclinical and Clinical Imaging—Note
    11. Biophysics and Basic Biomedical Research—Rapid Communication
    12. Biophysics and Basic Biomedical Research—Full Paper
    13. Biophysics and Basic Biomedical Research—Note
    14. Computer Processing and Modeling—Full Papers
    15. Computer Processing and Modeling—Notes
    16. Hardware and Instrumentation—Full Papers
    17. Hardware and Instrumentation—Note
    1. Diffusion microscopic MRI of the mouse embryo: Protocol and practical implementation in the splotch mouse model (pages 731–739)

      Francesca C. Norris, Bernard M. Siow, Jon O. Cleary, Jack A. Wells, Sandra C.P. De Castro, Roger J. Ordidge, Nicholas D.E. Greene, Andrew J. Copp, Peter J. Scambler, Daniel. C. Alexander and Mark F. Lythgoe

      Article first published online: 13 MAR 2014 | DOI: 10.1002/mrm.25145

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    2. Optimization of the reference region method for dual pharmacokinetic modeling using Gd-DTPA/MRI and 18F-FDG/PET (pages 740–748)

      Éric Poulin, Réjean Lebel, Étienne Croteau, Marie Blanchette, Luc Tremblay, Roger Lecomte, M'hamed Bentourkia and Martin Lepage

      Article first published online: 6 MAR 2014 | DOI: 10.1002/mrm.25151

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  9. Preclinical and Clinical Imaging—Note

    1. Top of page
    2. Cover Image
    3. Masthead
    4. Spectroscopic Methodology—Full Papers
    5. Preclinical and Clinical Spectroscopy—Full Paper
    6. Imaging Methodology—Rapid Communication
    7. Imaging Methodology—Full Papers
    8. Imaging Methodology—Notes
    9. Preclinical and Clinical Imaging—Full Papers
    10. Preclinical and Clinical Imaging—Note
    11. Biophysics and Basic Biomedical Research—Rapid Communication
    12. Biophysics and Basic Biomedical Research—Full Paper
    13. Biophysics and Basic Biomedical Research—Note
    14. Computer Processing and Modeling—Full Papers
    15. Computer Processing and Modeling—Notes
    16. Hardware and Instrumentation—Full Papers
    17. Hardware and Instrumentation—Note
    1. Assessment of cardiac time intervals using high temporal resolution real-time spiral phase contrast with UNFOLDed-SENSE (pages 749–756)

      Grzegorz T. Kowalik, Daniel S. Knight, Jennifer A. Steeden, Oliver Tann, Freddy Odille, David Atkinson, Andrew Taylor and Vivek Muthurangu

      Article first published online: 14 FEB 2014 | DOI: 10.1002/mrm.25183

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  10. Biophysics and Basic Biomedical Research—Rapid Communication

    1. Top of page
    2. Cover Image
    3. Masthead
    4. Spectroscopic Methodology—Full Papers
    5. Preclinical and Clinical Spectroscopy—Full Paper
    6. Imaging Methodology—Rapid Communication
    7. Imaging Methodology—Full Papers
    8. Imaging Methodology—Notes
    9. Preclinical and Clinical Imaging—Full Papers
    10. Preclinical and Clinical Imaging—Note
    11. Biophysics and Basic Biomedical Research—Rapid Communication
    12. Biophysics and Basic Biomedical Research—Full Paper
    13. Biophysics and Basic Biomedical Research—Note
    14. Computer Processing and Modeling—Full Papers
    15. Computer Processing and Modeling—Notes
    16. Hardware and Instrumentation—Full Papers
    17. Hardware and Instrumentation—Note
  11. Biophysics and Basic Biomedical Research—Full Paper

    1. Top of page
    2. Cover Image
    3. Masthead
    4. Spectroscopic Methodology—Full Papers
    5. Preclinical and Clinical Spectroscopy—Full Paper
    6. Imaging Methodology—Rapid Communication
    7. Imaging Methodology—Full Papers
    8. Imaging Methodology—Notes
    9. Preclinical and Clinical Imaging—Full Papers
    10. Preclinical and Clinical Imaging—Note
    11. Biophysics and Basic Biomedical Research—Rapid Communication
    12. Biophysics and Basic Biomedical Research—Full Paper
    13. Biophysics and Basic Biomedical Research—Note
    14. Computer Processing and Modeling—Full Papers
    15. Computer Processing and Modeling—Notes
    16. Hardware and Instrumentation—Full Papers
    17. Hardware and Instrumentation—Note
  12. Biophysics and Basic Biomedical Research—Note

    1. Top of page
    2. Cover Image
    3. Masthead
    4. Spectroscopic Methodology—Full Papers
    5. Preclinical and Clinical Spectroscopy—Full Paper
    6. Imaging Methodology—Rapid Communication
    7. Imaging Methodology—Full Papers
    8. Imaging Methodology—Notes
    9. Preclinical and Clinical Imaging—Full Papers
    10. Preclinical and Clinical Imaging—Note
    11. Biophysics and Basic Biomedical Research—Rapid Communication
    12. Biophysics and Basic Biomedical Research—Full Paper
    13. Biophysics and Basic Biomedical Research—Note
    14. Computer Processing and Modeling—Full Papers
    15. Computer Processing and Modeling—Notes
    16. Hardware and Instrumentation—Full Papers
    17. Hardware and Instrumentation—Note
  13. Computer Processing and Modeling—Full Papers

    1. Top of page
    2. Cover Image
    3. Masthead
    4. Spectroscopic Methodology—Full Papers
    5. Preclinical and Clinical Spectroscopy—Full Paper
    6. Imaging Methodology—Rapid Communication
    7. Imaging Methodology—Full Papers
    8. Imaging Methodology—Notes
    9. Preclinical and Clinical Imaging—Full Papers
    10. Preclinical and Clinical Imaging—Note
    11. Biophysics and Basic Biomedical Research—Rapid Communication
    12. Biophysics and Basic Biomedical Research—Full Paper
    13. Biophysics and Basic Biomedical Research—Note
    14. Computer Processing and Modeling—Full Papers
    15. Computer Processing and Modeling—Notes
    16. Hardware and Instrumentation—Full Papers
    17. Hardware and Instrumentation—Note
    1. You have free access to this content
      REKINDLE: Robust extraction of kurtosis INDices with linear estimation (pages 794–808)

      Chantal M.W. Tax, Willem M. Otte, Max A. Viergever, Rick M. Dijkhuizen and Alexander Leemans

      Article first published online: 31 MAR 2014 | DOI: 10.1002/mrm.25165

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    2. Robust 4D flow denoising using divergence-free wavelet transform (pages 828–842)

      Frank Ong, Martin Uecker, Umar Tariq, Albert Hsiao, Marcus T Alley, Shreyas S. Vasanawala and Michael Lustig

      Article first published online: 18 FEB 2014 | DOI: 10.1002/mrm.25176

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  14. Computer Processing and Modeling—Notes

    1. Top of page
    2. Cover Image
    3. Masthead
    4. Spectroscopic Methodology—Full Papers
    5. Preclinical and Clinical Spectroscopy—Full Paper
    6. Imaging Methodology—Rapid Communication
    7. Imaging Methodology—Full Papers
    8. Imaging Methodology—Notes
    9. Preclinical and Clinical Imaging—Full Papers
    10. Preclinical and Clinical Imaging—Note
    11. Biophysics and Basic Biomedical Research—Rapid Communication
    12. Biophysics and Basic Biomedical Research—Full Paper
    13. Biophysics and Basic Biomedical Research—Note
    14. Computer Processing and Modeling—Full Papers
    15. Computer Processing and Modeling—Notes
    16. Hardware and Instrumentation—Full Papers
    17. Hardware and Instrumentation—Note
    1. Algorithm for fast monoexponential fitting based on Auto-Regression on Linear Operations (ARLO) of data (pages 843–850)

      Mengchao Pei, Thanh D. Nguyen, Nanda D. Thimmappa, Carlo Salustri, Fang Dong, Mitch A. Cooper, Jianqi Li, Martin R. Prince and Yi Wang

      Article first published online: 24 MAR 2014 | DOI: 10.1002/mrm.25137

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    2. SHARP edges: Recovering cortical phase contrast through harmonic extension (pages 851–856)

      Ryan Topfer, Ferdinand Schweser, Andreas Deistung, Jürgen R. Reichenbach and Alan H. Wilman

      Article first published online: 3 MAR 2014 | DOI: 10.1002/mrm.25148

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    3. Image reconstruction in k-space from MR data encoded with ambiguous gradient fields (pages 857–864)

      Gerrit Schultz, Daniel Gallichan, Hans Weber, Walter R.T. Witschey, Matthias Honal, Jürgen Hennig and Maxim Zaitsev

      Article first published online: 28 APR 2014 | DOI: 10.1002/mrm.25152

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    4. Rapid look-up table method for noise-corrected curve fitting in the r2* mapping of iron loaded liver (pages 865–871)

      Changqing Wang, Taigang He, Xiaoyun Liu, Shouming Zhong, Wufan Chen and Yanqiu Feng

      Article first published online: 4 APR 2014 | DOI: 10.1002/mrm.25184

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  15. Hardware and Instrumentation—Full Papers

    1. Top of page
    2. Cover Image
    3. Masthead
    4. Spectroscopic Methodology—Full Papers
    5. Preclinical and Clinical Spectroscopy—Full Paper
    6. Imaging Methodology—Rapid Communication
    7. Imaging Methodology—Full Papers
    8. Imaging Methodology—Notes
    9. Preclinical and Clinical Imaging—Full Papers
    10. Preclinical and Clinical Imaging—Note
    11. Biophysics and Basic Biomedical Research—Rapid Communication
    12. Biophysics and Basic Biomedical Research—Full Paper
    13. Biophysics and Basic Biomedical Research—Note
    14. Computer Processing and Modeling—Full Papers
    15. Computer Processing and Modeling—Notes
    16. Hardware and Instrumentation—Full Papers
    17. Hardware and Instrumentation—Note
    1. Two-dimensional imaging in a lightweight portable MRI scanner without gradient coils (pages 872–883)

      Clarissa Zimmerman Cooley, Jason P. Stockmann, Brandon D. Armstrong, Mathieu Sarracanie, Michael H. Lev, Matthew S. Rosen and Lawrence L. Wald

      Article first published online: 25 MAR 2014 | DOI: 10.1002/mrm.25147

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    2. Real-time feedback for spatiotemporal field stabilization in MR systems (pages 884–893)

      Yolanda Duerst, Bertram J. Wilm, Benjamin E. Dietrich, S. Johanna Vannesjo, Christoph Barmet, Thomas Schmid, David O. Brunner and Klaas P. Pruessmann

      Article first published online: 13 MAR 2014 | DOI: 10.1002/mrm.25167

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  16. Hardware and Instrumentation—Note

    1. Top of page
    2. Cover Image
    3. Masthead
    4. Spectroscopic Methodology—Full Papers
    5. Preclinical and Clinical Spectroscopy—Full Paper
    6. Imaging Methodology—Rapid Communication
    7. Imaging Methodology—Full Papers
    8. Imaging Methodology—Notes
    9. Preclinical and Clinical Imaging—Full Papers
    10. Preclinical and Clinical Imaging—Note
    11. Biophysics and Basic Biomedical Research—Rapid Communication
    12. Biophysics and Basic Biomedical Research—Full Paper
    13. Biophysics and Basic Biomedical Research—Note
    14. Computer Processing and Modeling—Full Papers
    15. Computer Processing and Modeling—Notes
    16. Hardware and Instrumentation—Full Papers
    17. Hardware and Instrumentation—Note
    1. A double-quadrature radiofrequency coil design for proton-decoupled carbon-13 magnetic resonance spectroscopy in humans at 7T (pages 894–900)

      Eulalia Serés Roig, Arthur W. Magill, Guillaume Donati, Martin Meyerspeer, Lijing Xin, Ozlem Ipek and Rolf Gruetter

      Article first published online: 3 MAR 2014 | DOI: 10.1002/mrm.25171

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