Magnetic Resonance in Medicine

Cover image for Vol. 72 Issue 4

October 2014

Volume 72, Issue 4

Pages spcone–spcone, 903–1198

  1. Cover Image

    1. Top of page
    2. Cover Image
    3. Masthead
    4. Spectroscopic Methodology—Full Papers
    5. Spectroscopic Methodology—Notes
    6. Maging Methodology—Rapid Communication
    7. Maging Methodology—Full Papers
    8. Maging Methodology—Notes
    9. Preclinical and Clinical Imaging—Full Papers
    10. Preclinical and Clinical Imaging—Note
    11. Biophysics and Basic Biomedical Research—Full Papers
    12. Biophysics and Basic Biomedical Research—Notes
    13. Hardware and Instrumentation—Full Papers
    1. Different anesthesia regimes modulate the functional connectivity outcome in mice (page spcone)

      Elisabeth Jonckers, Rafael Delgado y Palacios, Disha Shah, Caroline Guglielmetti, Marleen Verhoye and Annemie Van der Linden

      Article first published online: 16 SEP 2014 | DOI: 10.1002/mrm.25480

  2. Masthead

    1. Top of page
    2. Cover Image
    3. Masthead
    4. Spectroscopic Methodology—Full Papers
    5. Spectroscopic Methodology—Notes
    6. Maging Methodology—Rapid Communication
    7. Maging Methodology—Full Papers
    8. Maging Methodology—Notes
    9. Preclinical and Clinical Imaging—Full Papers
    10. Preclinical and Clinical Imaging—Note
    11. Biophysics and Basic Biomedical Research—Full Papers
    12. Biophysics and Basic Biomedical Research—Notes
    13. Hardware and Instrumentation—Full Papers
    1. Masthead, Volume 72, Issue 4 (page spcone)

      Article first published online: 16 SEP 2014 | DOI: 10.1002/mrm.25481

  3. Spectroscopic Methodology—Full Papers

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

    1. Top of page
    2. Cover Image
    3. Masthead
    4. Spectroscopic Methodology—Full Papers
    5. Spectroscopic Methodology—Notes
    6. Maging Methodology—Rapid Communication
    7. Maging Methodology—Full Papers
    8. Maging Methodology—Notes
    9. Preclinical and Clinical Imaging—Full Papers
    10. Preclinical and Clinical Imaging—Note
    11. Biophysics and Basic Biomedical Research—Full Papers
    12. Biophysics and Basic Biomedical Research—Notes
    13. Hardware and Instrumentation—Full Papers
    1. Impact of frequency drift on gamma-aminobutyric acid-edited MR spectroscopy (pages 941–948)

      Ashley D. Harris, Benjamin Glaubitz, Jamie Near, C. John Evans, Nicolaas A.J. Puts, Tobias Schmidt-Wilcke, Martin Tegenthoff, Peter B. Barker and Richard A.E. Edden

      Article first published online: 11 NOV 2013 | DOI: 10.1002/mrm.25009

  5. Maging Methodology—Rapid Communication

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

    1. Top of page
    2. Cover Image
    3. Masthead
    4. Spectroscopic Methodology—Full Papers
    5. Spectroscopic Methodology—Notes
    6. Maging Methodology—Rapid Communication
    7. Maging Methodology—Full Papers
    8. Maging Methodology—Notes
    9. Preclinical and Clinical Imaging—Full Papers
    10. Preclinical and Clinical Imaging—Note
    11. Biophysics and Basic Biomedical Research—Full Papers
    12. Biophysics and Basic Biomedical Research—Notes
    13. Hardware and Instrumentation—Full Papers
    1. You have free access to this content
      Calibrationless parallel imaging reconstruction based on structured low-rank matrix completion (pages 959–970)

      Peter J. Shin, Peder E. Z. Larson, Michael A. Ohliger, Michael Elad, John M. Pauly, Daniel B. Vigneron and Michael Lustig

      Article first published online: 18 NOV 2013 | DOI: 10.1002/mrm.24997

    2. Prospective real-time head motion correction using inductively coupled wireless NMR probes (pages 971–985)

      Saikat Sengupta, Sasidhar Tadanki, John C. Gore and E. Brian Welch

      Article first published online: 18 NOV 2013 | DOI: 10.1002/mrm.25001

    3. Radial spectroscopic MRI of hyperpolarized [1-13C] pyruvate at 7 tesla (pages 986–995)

      Marc S. Ramirez, Jaehyuk Lee, Christopher M. Walker, Vlad C. Sandulache, Franciszek Hennel, Stephen Y. Lai and James A. Bankson

      Article first published online: 1 NOV 2013 | DOI: 10.1002/mrm.25004

    4. Dynamic susceptibility contrast MRI with a prebolus contrast agent administration design for improved absolute quantification of perfusion (pages 996–1006)

      Linda Knutsson, Emelie Lindgren, André Ahlgren, Matthias J.P. van Osch, Karin Markenroth Bloch, Yulia Surova, Freddy Ståhlberg, Danielle van Westen and Ronnie Wirestam

      Article first published online: 29 OCT 2013 | DOI: 10.1002/mrm.25006

    5. Modeling magnetization transfer effects of Q2TIPS bolus saturation in multi-TI pulsed arterial spin labeling (pages 1007–1014)

      Jan Petr, Georg Schramm, Frank Hofheinz, Jens Langner and Jörg van den Hoff

      Article first published online: 5 NOV 2013 | DOI: 10.1002/mrm.25011

    6. Aggregated motion estimation for real-time MRI reconstruction (pages 1039–1048)

      Housen Li, Markus Haltmeier, Shuo Zhang, Jens Frahm and Axel Munk

      Article first published online: 18 NOV 2013 | DOI: 10.1002/mrm.25020

    7. In vivo T2-based MR thermometry in adipose tissue layers for high-intensity focused ultrasound near-field monitoring (pages 1057–1064)

      Paul Baron, Mario Ries, Roel Deckers, Martijn de Greef, Jukka Tanttu, Max Köhler, Max A. Viergever, Chrit T. W. Moonen and Lambertus W. Bartels

      Article first published online: 20 NOV 2013 | DOI: 10.1002/mrm.25025

  7. Maging Methodology—Notes

    1. Top of page
    2. Cover Image
    3. Masthead
    4. Spectroscopic Methodology—Full Papers
    5. Spectroscopic Methodology—Notes
    6. Maging Methodology—Rapid Communication
    7. Maging Methodology—Full Papers
    8. Maging Methodology—Notes
    9. Preclinical and Clinical Imaging—Full Papers
    10. Preclinical and Clinical Imaging—Note
    11. Biophysics and Basic Biomedical Research—Full Papers
    12. Biophysics and Basic Biomedical Research—Notes
    13. Hardware and Instrumentation—Full Papers
    1. An iterative spherical mean value method for background field removal in MRI (pages 1065–1071)

      Yan Wen, Dong Zhou, Tian Liu, Pascal Spincemaille and Yi Wang

      Article first published online: 19 NOV 2013 | DOI: 10.1002/mrm.24998

    2. Phase-contrast velocity mapping for highly diffusive fluids: Optimal bipolar gradient pulse parameters for hyperpolarized helium-3 (pages 1072–1078)

      Lionel Martin, Xavier Maître, Ludovic de Rochefort, Mathieu Sarracanie, Marlies Friese, Pascal Hagot and Emmanuel Durand

      Article first published online: 11 NOV 2013 | DOI: 10.1002/mrm.25005

    3. Simultaneous static and cine nonenhanced MR angiography using radial sampling and highly constrained back projection reconstruction (pages 1079–1086)

      Ioannis Koktzoglou, Charles A. Mistretta, Shivraman Giri, Eugene E. Dunkle, Parag Amin and Robert R. Edelman

      Article first published online: 11 NOV 2013 | DOI: 10.1002/mrm.25008

    4. You have free access to this content
      Real-time method for motion-compensated MR thermometry and MRgHIFU treatment in abdominal organs (pages 1087–1095)

      Zarko Celicanin, Vincent Auboiroux, Oliver Bieri, Lorena Petrusca, Francesco Santini, Magalie Viallon, Klaus Scheffler and Rares Salomir

      Article first published online: 14 NOV 2013 | DOI: 10.1002/mrm.25017

  8. Preclinical and Clinical Imaging—Full Papers

    1. Top of page
    2. Cover Image
    3. Masthead
    4. Spectroscopic Methodology—Full Papers
    5. Spectroscopic Methodology—Notes
    6. Maging Methodology—Rapid Communication
    7. Maging Methodology—Full Papers
    8. Maging Methodology—Notes
    9. Preclinical and Clinical Imaging—Full Papers
    10. Preclinical and Clinical Imaging—Note
    11. Biophysics and Basic Biomedical Research—Full Papers
    12. Biophysics and Basic Biomedical Research—Notes
    13. Hardware and Instrumentation—Full Papers
    1. Different anesthesia regimes modulate the functional connectivity outcome in mice (pages 1103–1112)

      Elisabeth Jonckers, Rafael Delgado y Palacios, Disha Shah, Caroline Guglielmetti, Marleen Verhoye and Annemie Van der Linden

      Article first published online: 29 OCT 2013 | DOI: 10.1002/mrm.24990

    2. Amide proton transfer imaging of high intensity focused ultrasound-treated tumor tissue (pages 1113–1122)

      Stefanie J.C.G. Hectors, Igor Jacobs, Gustav J. Strijkers and Klaas Nicolay

      Article first published online: 23 OCT 2013 | DOI: 10.1002/mrm.25000

  9. Preclinical and Clinical Imaging—Note

    1. Top of page
    2. Cover Image
    3. Masthead
    4. Spectroscopic Methodology—Full Papers
    5. Spectroscopic Methodology—Notes
    6. Maging Methodology—Rapid Communication
    7. Maging Methodology—Full Papers
    8. Maging Methodology—Notes
    9. Preclinical and Clinical Imaging—Full Papers
    10. Preclinical and Clinical Imaging—Note
    11. Biophysics and Basic Biomedical Research—Full Papers
    12. Biophysics and Basic Biomedical Research—Notes
    13. Hardware and Instrumentation—Full Papers
    1. Compressive manifold learning: Estimating one-dimensional respiratory motion directly from undersampled k-space data (pages 1130–1140)

      Muhammad Usman, Ghislain Vaillant, David Atkinson, Tobias Schaeffter and Claudia Prieto

      Article first published online: 11 NOV 2013 | DOI: 10.1002/mrm.25010

  10. Biophysics and Basic Biomedical Research—Full Papers

    1. Top of page
    2. Cover Image
    3. Masthead
    4. Spectroscopic Methodology—Full Papers
    5. Spectroscopic Methodology—Notes
    6. Maging Methodology—Rapid Communication
    7. Maging Methodology—Full Papers
    8. Maging Methodology—Notes
    9. Preclinical and Clinical Imaging—Full Papers
    10. Preclinical and Clinical Imaging—Note
    11. Biophysics and Basic Biomedical Research—Full Papers
    12. Biophysics and Basic Biomedical Research—Notes
    13. Hardware and Instrumentation—Full Papers
    1. In vivo radiofrequency heating in swine in a 3T (123.2-MHz) birdcage whole body coil (pages 1141–1150)

      Devashish Shrivastava, Lynn Utecht, Jinfeng Tian, John Hughes and J. Thomas Vaughan

      Article first published online: 20 NOV 2013 | DOI: 10.1002/mrm.24999

    2. You have full text access to this OnlineOpen article
      Viable and fixed white matter: Diffusion magnetic resonance comparisons and contrasts at physiological temperature (pages 1151–1161)

      Simon Richardson, Bernard Siow, Eleftheria Panagiotaki, Torben Schneider, Mark F. Lythgoe and Daniel C. Alexander

      Article first published online: 14 NOV 2013 | DOI: 10.1002/mrm.25012

    3. You have full text access to this OnlineOpen article
      Aortic relative pressure components derived from four-dimensional flow cardiovascular magnetic resonance (pages 1162–1169)

      Pablo Lamata, Alex Pitcher, Sebastian Krittian, David Nordsletten, Malenka M. Bissell, Thomas Cassar, Alex J. Barker, Michael Markl, Stefan Neubauer and Nicolas P. Smith

      Article first published online: 18 NOV 2013 | DOI: 10.1002/mrm.25015

  11. Biophysics and Basic Biomedical Research—Notes

    1. Top of page
    2. Cover Image
    3. Masthead
    4. Spectroscopic Methodology—Full Papers
    5. Spectroscopic Methodology—Notes
    6. Maging Methodology—Rapid Communication
    7. Maging Methodology—Full Papers
    8. Maging Methodology—Notes
    9. Preclinical and Clinical Imaging—Full Papers
    10. Preclinical and Clinical Imaging—Note
    11. Biophysics and Basic Biomedical Research—Full Papers
    12. Biophysics and Basic Biomedical Research—Notes
    13. Hardware and Instrumentation—Full Papers
    1. Volume effect of localized injection in functional MRI and electrophysiology (pages 1170–1175)

      Daniil P. Aksenov, Limin Li, Gheorghe Iordanescu, Michael J. Miller and Alice M. Wyrwicz

      Article first published online: 29 OCT 2013 | DOI: 10.1002/mrm.24996

    2. MRI under hyperbaric air and oxygen: Effects on local magnetic field and relaxation times (pages 1176–1181)

      Eric R. Muir, Damon Cardenas, Shiliang Huang, John Roby, Guang Li and Timothy Q. Duong

      Article first published online: 14 NOV 2013 | DOI: 10.1002/mrm.25027

  12. Hardware and Instrumentation—Full Papers

    1. Top of page
    2. Cover Image
    3. Masthead
    4. Spectroscopic Methodology—Full Papers
    5. Spectroscopic Methodology—Notes
    6. Maging Methodology—Rapid Communication
    7. Maging Methodology—Full Papers
    8. Maging Methodology—Notes
    9. Preclinical and Clinical Imaging—Full Papers
    10. Preclinical and Clinical Imaging—Note
    11. Biophysics and Basic Biomedical Research—Full Papers
    12. Biophysics and Basic Biomedical Research—Notes
    13. Hardware and Instrumentation—Full Papers
    1. Development and optimization of hardware for delta relaxation enhanced MRI (pages 1182–1190)

      Chad T. Harris, William B. Handler, Yonathan Araya, Francisco Martínez-Santiesteban, Jamu K. Alford, Brian Dalrymple, Frank Van Sas, Blaine A. Chronik and Timothy J. Scholl

      Article first published online: 11 NOV 2013 | DOI: 10.1002/mrm.25014

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