Magnetic Resonance in Medicine

Cover image for Vol. 74 Issue 3

September 2015

Volume 74, Issue 3

Pages spcone–spcone, xi–xii, 599–902

  1. Cover Image

    1. Top of page
    2. Cover Image
    3. Masthead
    4. Announcement
    5. Spectroscopy Methodology—Rapid Communication
    6. Spectroscopy Methodology—Note
    7. Imaging Methodology—Rapid Communication
    8. Imaging Methodology—Full Papers
    9. Imaging Methodology—Notes
    10. Preclinical and Clinical Imaging—Full Papers
    11. Biophysics and Basic Biomedical Research—Full Papers
    12. Computer Processing and Modeling—Full Paper
    13. Computer Processing and Modeling—Note
    14. Hardware and Instrumentation—Full Papers
    1. Radiofrequency pulse design using nonlinear gradient magnetic fields (page spcone)

      Emre Kopanoglu and R. Todd Constable

      Article first published online: 20 AUG 2015 | DOI: 10.1002/mrm.25909

  2. Masthead

    1. Top of page
    2. Cover Image
    3. Masthead
    4. Announcement
    5. Spectroscopy Methodology—Rapid Communication
    6. Spectroscopy Methodology—Note
    7. Imaging Methodology—Rapid Communication
    8. Imaging Methodology—Full Papers
    9. Imaging Methodology—Notes
    10. Preclinical and Clinical Imaging—Full Papers
    11. Biophysics and Basic Biomedical Research—Full Papers
    12. Computer Processing and Modeling—Full Paper
    13. Computer Processing and Modeling—Note
    14. Hardware and Instrumentation—Full Papers
    1. Masthead, Volume 74, Issue 3 (page spcone)

      Article first published online: 20 AUG 2015 | DOI: 10.1002/mrm.25910

  3. Announcement

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

    1. Top of page
    2. Cover Image
    3. Masthead
    4. Announcement
    5. Spectroscopy Methodology—Rapid Communication
    6. Spectroscopy Methodology—Note
    7. Imaging Methodology—Rapid Communication
    8. Imaging Methodology—Full Papers
    9. Imaging Methodology—Notes
    10. Preclinical and Clinical Imaging—Full Papers
    11. Biophysics and Basic Biomedical Research—Full Papers
    12. Computer Processing and Modeling—Full Paper
    13. Computer Processing and Modeling—Note
    14. Hardware and Instrumentation—Full Papers
    1. Parallel reconstruction in accelerated multivoxel MR spectroscopy (pages 599–606)

      V. O. Boer, D. W. J. Klomp, J. Laterra and P. B. Barker

      Article first published online: 17 JUN 2015 | DOI: 10.1002/mrm.25718

      • image
      • image
      • image
      • image
      • image
  5. Spectroscopy Methodology—Note

    1. Top of page
    2. Cover Image
    3. Masthead
    4. Announcement
    5. Spectroscopy Methodology—Rapid Communication
    6. Spectroscopy Methodology—Note
    7. Imaging Methodology—Rapid Communication
    8. Imaging Methodology—Full Papers
    9. Imaging Methodology—Notes
    10. Preclinical and Clinical Imaging—Full Papers
    11. Biophysics and Basic Biomedical Research—Full Papers
    12. Computer Processing and Modeling—Full Paper
    13. Computer Processing and Modeling—Note
    14. Hardware and Instrumentation—Full Papers
    1. Comparison of brain gray and white matter macromolecule resonances at 3 and 7 Tesla (pages 607–613)

      Karim Snoussi, Joseph S. Gillen, Alena Horska, Nicolaas A. J. Puts, Subechhya Pradhan, Richard A. E. Edden and Peter B. Barker

      Article first published online: 22 SEP 2014 | DOI: 10.1002/mrm.25468

      • image
      • image
      • image
      • image
  6. Imaging Methodology—Rapid Communication

    1. Top of page
    2. Cover Image
    3. Masthead
    4. Announcement
    5. Spectroscopy Methodology—Rapid Communication
    6. Spectroscopy Methodology—Note
    7. Imaging Methodology—Rapid Communication
    8. Imaging Methodology—Full Papers
    9. Imaging Methodology—Notes
    10. Preclinical and Clinical Imaging—Full Papers
    11. Biophysics and Basic Biomedical Research—Full Papers
    12. Computer Processing and Modeling—Full Paper
    13. Computer Processing and Modeling—Note
    14. Hardware and Instrumentation—Full Papers
    1. High-resolution variable-density 3D cones coronary MRA (pages 614–621)

      Nii Okai Addy, R. Reeve Ingle, Holden H. Wu, Bob S. Hu and Dwight G. Nishimura

      Article first published online: 14 JUL 2015 | DOI: 10.1002/mrm.25803

      • image
      • image
      • image
      • image
      • image
      • image
      • image
  7. Imaging Methodology—Full Papers

    1. Top of page
    2. Cover Image
    3. Masthead
    4. Announcement
    5. Spectroscopy Methodology—Rapid Communication
    6. Spectroscopy Methodology—Note
    7. Imaging Methodology—Rapid Communication
    8. Imaging Methodology—Full Papers
    9. Imaging Methodology—Notes
    10. Preclinical and Clinical Imaging—Full Papers
    11. Biophysics and Basic Biomedical Research—Full Papers
    12. Computer Processing and Modeling—Full Paper
    13. Computer Processing and Modeling—Note
    14. Hardware and Instrumentation—Full Papers
    1. Rapid in vivo apparent diffusion coefficient mapping of hyperpolarized 13C metabolites (pages 622–633)

      Bertram L. Koelsch, Galen D. Reed, Kayvan R. Keshari, Myriam M. Chaumeil, Robert Bok, Sabrina M. Ronen, Daniel B. Vigneron, John Kurhanewicz and Peder E. Z. Larson

      Article first published online: 11 SEP 2014 | DOI: 10.1002/mrm.25422

      • image
      • image
      • image
      • image
      • image
      • image
      • image
    2. You have full text access to this OnlineOpen article
    3. You have free access to this content
      Real-time motion correction using gradient tones and head-mounted NMR field probes (pages 647–660)

      Maximilian Haeberlin, Lars Kasper, Christoph Barmet, David O. Brunner, Benjamin E. Dietrich, Simon Gross, Bertram J. Wilm, Sebastian Kozerke and Klaas P. Pruessmann

      Article first published online: 12 SEP 2014 | DOI: 10.1002/mrm.25432

      • image
      • image
      • image
      • image
      • image
      • image
      • image
      • image
      • image
    4. ZTE imaging with enhanced flip angle using modulated excitation (pages 684–693)

      Konrad Schieban, Markus Weiger, Franciszek Hennel, Andreas Boss and Klaas P. Pruessmann

      Article first published online: 19 SEP 2014 | DOI: 10.1002/mrm.25464

      • image
      • image
      • image
      • image
      • image
      • image
      • image
      • image
    5. Balanced SSFP Dixon imaging with banding-artifact reduction at 3 Tesla (pages 706–715)

      Brady Quist, Brian A. Hargreaves, Bruce L. Daniel and Manojkumar Saranathan

      Article first published online: 16 SEP 2014 | DOI: 10.1002/mrm.25449

      • image
      • image
      • image
      • image
      • image
      • image
      • image
      • image
      • image
    6. Susceptibility-based positive contrast MRI of brachytherapy seeds (pages 716–726)

      Ying Dong, Zheng Chang, Guoxi Xie, Gregory Whitehead and Jim X. Ji

      Article first published online: 23 SEP 2014 | DOI: 10.1002/mrm.25453

      • image
      • image
      • image
      • image
      • image
      • image
      • image
      • image
    7. Non-contrast-enhanced peripheral angiography using a sliding interleaved cylinder acquisition (pages 727–738)

      Kie Tae Kwon, Adam B. Kerr, Holden H. Wu, Bob S. Hu, Jean H. Brittain and Dwight G. Nishimura

      Article first published online: 9 SEP 2014 | DOI: 10.1002/mrm.25452

      • image
      • image
      • image
      • image
      • image
      • image
      • image
      • image
  8. Imaging Methodology—Notes

    1. Top of page
    2. Cover Image
    3. Masthead
    4. Announcement
    5. Spectroscopy Methodology—Rapid Communication
    6. Spectroscopy Methodology—Note
    7. Imaging Methodology—Rapid Communication
    8. Imaging Methodology—Full Papers
    9. Imaging Methodology—Notes
    10. Preclinical and Clinical Imaging—Full Papers
    11. Biophysics and Basic Biomedical Research—Full Papers
    12. Computer Processing and Modeling—Full Paper
    13. Computer Processing and Modeling—Note
    14. Hardware and Instrumentation—Full Papers
    1. You have free access to this content
    2. You have full text access to this OnlineOpen article
    3. Quantification of myocardial blood flow using non–ECG-triggered MR imaging (pages 765–771)

      David Chen, Behzad Sharif, Rohan Dharmakumar, Louise E.J. Thomson, C. Noel Bairey Merz, Daniel S. Berman and Debiao Li

      Article first published online: 16 SEP 2014 | DOI: 10.1002/mrm.25451

      • image
      • image
      • image
      • image
      • image
  9. Preclinical and Clinical Imaging—Full Papers

    1. Top of page
    2. Cover Image
    3. Masthead
    4. Announcement
    5. Spectroscopy Methodology—Rapid Communication
    6. Spectroscopy Methodology—Note
    7. Imaging Methodology—Rapid Communication
    8. Imaging Methodology—Full Papers
    9. Imaging Methodology—Notes
    10. Preclinical and Clinical Imaging—Full Papers
    11. Biophysics and Basic Biomedical Research—Full Papers
    12. Computer Processing and Modeling—Full Paper
    13. Computer Processing and Modeling—Note
    14. Hardware and Instrumentation—Full Papers
    1. Three-dimensional whole-heart T2 mapping at 3T (pages 803–816)

      Haiyan Ding, Laura Fernandez-de-Manuel, Michael Schär, Karl H. Schuleri, Henry Halperin, Le He, M. Muz Zviman, Roy Beinart and Daniel A. Herzka

      Article first published online: 19 SEP 2014 | DOI: 10.1002/mrm.25458

      • image
      • image
      • image
      • image
      • image
      • image
      • image
      • image
      • image
    2. Assessment of altered three-dimensional blood characteristics in aortic disease by velocity distribution analysis (pages 817–825)

      Julio Garcia, Alex J. Barker, Pim van Ooij, Susanne Schnell, Jyothy Puthumana, Robert O. Bonow, Jeremy D. Collins, James C. Carr and Michael Markl

      Article first published online: 23 SEP 2014 | DOI: 10.1002/mrm.25466

      • image
      • image
      • image
      • image
      • image
      • image
  10. Biophysics and Basic Biomedical Research—Full Papers

    1. Top of page
    2. Cover Image
    3. Masthead
    4. Announcement
    5. Spectroscopy Methodology—Rapid Communication
    6. Spectroscopy Methodology—Note
    7. Imaging Methodology—Rapid Communication
    8. Imaging Methodology—Full Papers
    9. Imaging Methodology—Notes
    10. Preclinical and Clinical Imaging—Full Papers
    11. Biophysics and Basic Biomedical Research—Full Papers
    12. Computer Processing and Modeling—Full Paper
    13. Computer Processing and Modeling—Note
    14. Hardware and Instrumentation—Full Papers
    1. In vitro study to simulate the intracardiac magnetohydrodynamic effect (pages 850–857)

      Waltraud B. Buchenberg, Wolfgang Mader, Georg Hoppe, Ramona Lorenz, Marius Menza, Martin Büchert, Jens Timmer and Bernd Jung

      Article first published online: 15 SEP 2014 | DOI: 10.1002/mrm.25456

      • image
      • image
      • image
      • image
      • image
      • image
      • image
      • image
  11. Computer Processing and Modeling—Full Paper

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

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

    1. Top of page
    2. Cover Image
    3. Masthead
    4. Announcement
    5. Spectroscopy Methodology—Rapid Communication
    6. Spectroscopy Methodology—Note
    7. Imaging Methodology—Rapid Communication
    8. Imaging Methodology—Full Papers
    9. Imaging Methodology—Notes
    10. Preclinical and Clinical Imaging—Full Papers
    11. Biophysics and Basic Biomedical Research—Full Papers
    12. Computer Processing and Modeling—Full Paper
    13. Computer Processing and Modeling—Note
    14. Hardware and Instrumentation—Full Papers
    1. Application unit for the administration of contrast gases for pulmonary magnetic resonance imaging: optimization of ventilation distribution for 3He-MRI (pages 884–893)

      M. Güldner, St. Becker, U. Wolf, C. Düber, A. Friesenecker, K. K. Gast, W. Heil, C. Hoffmann, S. Karpuk, E. W. Otten, J. Rivoire, Z. Salhi, A. Scholz, L. M. Schreiber and M. Terekhov

      Article first published online: 11 SEP 2014 | DOI: 10.1002/mrm.25433

      • image
      • image
      • image
      • image
      • image
      • image
      • image
      • image
    2. Comparison of optical and MR-based tracking (pages 894–902)

      Kazim Gumus, Brian Keating, Nathan White, Brian Andrews-Shigaki, Brian Armstrong, Julian Maclaren, Maxim Zaitsev, Anders Dale and Thomas Ernst

      Article first published online: 24 SEP 2014 | DOI: 10.1002/mrm.25472

      • image
      • image
      • image
      • image
      • image

SEARCH

SEARCH BY CITATION