Magnetic Resonance in Medicine

Cover image for Vol. 69 Issue 6

June 2013

Volume 69, Issue 6

Pages spcone–spcone, 1501–1813

  1. Cover Image

    1. Top of page
    2. Cover Image
    3. Masthead
    4. Spectroscopic Methodology—Full Paper
    5. Spectroscopic Methodology—Note
    6. Imaging Methodology—Rapid Communication
    7. Imaging Methodology—Full Paper
    8. Imaging Methodology—Note
    9. Preclinical and Clinical Imaging—Full Paper
    10. Preclinical and Clinical Imaging—Note
    11. Biophysics and Basic Biomedical Research—Rapid Communication
    12. Biophysics and Basic Biomedical Research—Note
    13. Computer Processing and Modeling—Full Paper
    14. Computer Processing and Modeling—Note
    15. Hardware and Instrumentation—Full Paper
    16. Hardware and Instrumentation—Note
    17. Erratum
    1. You have free access to this content
      Hybrid ultra-low-field MRI and magnetoencephalography system based on a commercial whole-head neuromagnetometer (page spcone)

      Panu T. Vesanen, Jaakko O. Nieminen, Koos C. J. Zevenhoven, Juhani Dabek, Lauri T. Parkkonen, Andrey V. Zhdanov, Juho Luomahaara, Juha Hassel, Jari Penttilä, Juha Simola, Antti I. Ahonen, Jyrki P. Mäkelä and Risto J. Ilmoniemi

      Version of Record online: 16 MAY 2013 | DOI: 10.1002/mrm.24833

  2. Masthead

    1. Top of page
    2. Cover Image
    3. Masthead
    4. Spectroscopic Methodology—Full Paper
    5. Spectroscopic Methodology—Note
    6. Imaging Methodology—Rapid Communication
    7. Imaging Methodology—Full Paper
    8. Imaging Methodology—Note
    9. Preclinical and Clinical Imaging—Full Paper
    10. Preclinical and Clinical Imaging—Note
    11. Biophysics and Basic Biomedical Research—Rapid Communication
    12. Biophysics and Basic Biomedical Research—Note
    13. Computer Processing and Modeling—Full Paper
    14. Computer Processing and Modeling—Note
    15. Hardware and Instrumentation—Full Paper
    16. Hardware and Instrumentation—Note
    17. Erratum
    1. Masthead, Volume 69, Issue 6 (page spcone)

      Version of Record online: 16 MAY 2013 | DOI: 10.1002/mrm.24834

  3. Spectroscopic Methodology—Full Paper

    1. Top of page
    2. Cover Image
    3. Masthead
    4. Spectroscopic Methodology—Full Paper
    5. Spectroscopic Methodology—Note
    6. Imaging Methodology—Rapid Communication
    7. Imaging Methodology—Full Paper
    8. Imaging Methodology—Note
    9. Preclinical and Clinical Imaging—Full Paper
    10. Preclinical and Clinical Imaging—Note
    11. Biophysics and Basic Biomedical Research—Rapid Communication
    12. Biophysics and Basic Biomedical Research—Note
    13. Computer Processing and Modeling—Full Paper
    14. Computer Processing and Modeling—Note
    15. Hardware and Instrumentation—Full Paper
    16. Hardware and Instrumentation—Note
    17. Erratum
    1. Lipid suppression in CSI with spatial priors and highly undersampled peripheral k-space (pages 1501–1511)

      Berkin Bilgic, Borjan Gagoski, Trina Kok and Elfar Adalsteinsson

      Version of Record online: 17 JUL 2012 | DOI: 10.1002/mrm.24399

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    2. Which prior knowledge? Quantification of in vivo brain 13C MR spectra following 13C glucose infusion using AMARES (pages 1512–1522)

      Bernard Lanz, João M. N. Duarte, Nicolas Kunz, Vladimir Mlynárik, Rolf Gruetter and Cristina Cudalbu

      Version of Record online: 8 AUG 2012 | DOI: 10.1002/mrm.24406

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  4. Spectroscopic Methodology—Note

    1. Top of page
    2. Cover Image
    3. Masthead
    4. Spectroscopic Methodology—Full Paper
    5. Spectroscopic Methodology—Note
    6. Imaging Methodology—Rapid Communication
    7. Imaging Methodology—Full Paper
    8. Imaging Methodology—Note
    9. Preclinical and Clinical Imaging—Full Paper
    10. Preclinical and Clinical Imaging—Note
    11. Biophysics and Basic Biomedical Research—Rapid Communication
    12. Biophysics and Basic Biomedical Research—Note
    13. Computer Processing and Modeling—Full Paper
    14. Computer Processing and Modeling—Note
    15. Hardware and Instrumentation—Full Paper
    16. Hardware and Instrumentation—Note
    17. Erratum
    1. In vitro and in vivo studies of 17O NMR sensitivity at 9.4 and 16.4 T (pages 1523–1527)

      Ming Lu, Yi Zhang, Kamil Ugurbil, Wei Chen and Xiao-Hong Zhu

      Version of Record online: 6 JUL 2012 | DOI: 10.1002/mrm.24386

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    2. Reliable gamma aminobutyric acid measurement using optimized PRESS at 3 T (pages 1528–1533)

      Antonio Napolitano, Walter Kockenberger and Dorothee P. Auer

      Version of Record online: 17 JUL 2012 | DOI: 10.1002/mrm.24397

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  5. Imaging Methodology—Rapid Communication

    1. Top of page
    2. Cover Image
    3. Masthead
    4. Spectroscopic Methodology—Full Paper
    5. Spectroscopic Methodology—Note
    6. Imaging Methodology—Rapid Communication
    7. Imaging Methodology—Full Paper
    8. Imaging Methodology—Note
    9. Preclinical and Clinical Imaging—Full Paper
    10. Preclinical and Clinical Imaging—Note
    11. Biophysics and Basic Biomedical Research—Rapid Communication
    12. Biophysics and Basic Biomedical Research—Note
    13. Computer Processing and Modeling—Full Paper
    14. Computer Processing and Modeling—Note
    15. Hardware and Instrumentation—Full Paper
    16. Hardware and Instrumentation—Note
    17. Erratum
    1. Design of multishell sampling schemes with uniform coverage in diffusion MRI (pages 1534–1540)

      Emmanuel Caruyer, Christophe Lenglet, Guillermo Sapiro and Rachid Deriche

      Version of Record online: 26 APR 2013 | DOI: 10.1002/mrm.24736

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  6. Imaging Methodology—Full Paper

    1. Top of page
    2. Cover Image
    3. Masthead
    4. Spectroscopic Methodology—Full Paper
    5. Spectroscopic Methodology—Note
    6. Imaging Methodology—Rapid Communication
    7. Imaging Methodology—Full Paper
    8. Imaging Methodology—Note
    9. Preclinical and Clinical Imaging—Full Paper
    10. Preclinical and Clinical Imaging—Note
    11. Biophysics and Basic Biomedical Research—Rapid Communication
    12. Biophysics and Basic Biomedical Research—Note
    13. Computer Processing and Modeling—Full Paper
    14. Computer Processing and Modeling—Note
    15. Hardware and Instrumentation—Full Paper
    16. Hardware and Instrumentation—Note
    17. Erratum
    1. Quantification of venous vessel size in human brain in response to hypercapnia and hyperoxia using magnetic resonance imaging (pages 1541–1552)

      Yuji Shen, Ida M. Pu, Trevor Ahearn, Matthew Clemence and Christian Schwarzbauer

      Version of Record online: 5 APR 2012 | DOI: 10.1002/mrm.24258

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    2. Multidirectional high-moment encoding in phase contrast MRI (pages 1553–1563)

      Nicholas R. Zwart and James G. Pipe

      Version of Record online: 3 JUL 2012 | DOI: 10.1002/mrm.24390

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    3. Repeatability of ultrashort echo time-based two-component T2* measurements on cartilages in human knee at 3 T (pages 1564–1571)

      Yongxian Qian, Ashley A. Williams, Constance R. Chu and Fernando E. Boada

      Version of Record online: 3 OCT 2012 | DOI: 10.1002/mrm.24392

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    4. Noninvasive mapping of water diffusional exchange in the human brain using filter-exchange imaging (pages 1572–1580)

      Markus Nilsson, Jimmy Lätt, Danielle van Westen, Sara Brockstedt, Samo Lasič, Freddy Ståhlberg and Daniel Topgaard

      Version of Record online: 26 JUL 2012 | DOI: 10.1002/mrm.24395

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    5. Toward online reconstruction of quantitative susceptibility maps: Superfast dipole inversion (pages 1581–1593)

      Ferdinand Schweser, Andreas Deistung, Karsten Sommer and Jürgen Rainer Reichenbach

      Version of Record online: 12 JUL 2012 | DOI: 10.1002/mrm.24405

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    6. An algorithm for the calculation of three-dimensional collagen fiber orientation in ligaments using angle-sensitive MRI (pages 1594–1602)

      Thomas Seidel, Niels Hammer, Nikita Garnov, Grace Schneider and Hanno Steinke

      Version of Record online: 23 JUL 2012 | DOI: 10.1002/mrm.24408

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    7. You have full text access to this OnlineOpen article
    8. Prospective optical motion correction for 3D time-of-flight angiography (pages 1623–1633)

      Daniel Kopeinigg, Murat Aksoy, Christoph Forman, Matus Straka, Danielle Seaman, Jarrett Rosenberg, Dominik Fleischmann, Joachim Hornegger and Roland Bammer

      Version of Record online: 10 AUG 2012 | DOI: 10.1002/mrm.24423

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  7. Imaging Methodology—Note

    1. Top of page
    2. Cover Image
    3. Masthead
    4. Spectroscopic Methodology—Full Paper
    5. Spectroscopic Methodology—Note
    6. Imaging Methodology—Rapid Communication
    7. Imaging Methodology—Full Paper
    8. Imaging Methodology—Note
    9. Preclinical and Clinical Imaging—Full Paper
    10. Preclinical and Clinical Imaging—Note
    11. Biophysics and Basic Biomedical Research—Rapid Communication
    12. Biophysics and Basic Biomedical Research—Note
    13. Computer Processing and Modeling—Full Paper
    14. Computer Processing and Modeling—Note
    15. Hardware and Instrumentation—Full Paper
    16. Hardware and Instrumentation—Note
    17. Erratum
    1. The effect of pulmonary blood flow changes on oxygen-enhanced lung magnetic resonance imaging (pages 1645–1649)

      Hye-Jeong Lee, Jaeseok Park, Jin Hur, Young Jin Kim, Ji Eun Nam, Byoung Wook Choi and Kyu Ok Choe

      Version of Record online: 3 JUL 2012 | DOI: 10.1002/mrm.24388

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    2. Accelerated point spread function mapping using signal modeling for accurate echo-planar imaging geometric distortion correction (pages 1650–1656)

      Iulius Dragonu, Thomas Lange, Nicoleta Baxan, Jeff Snyder, Juergen Hennig and Maxim Zaitsev

      Version of Record online: 17 JUL 2012 | DOI: 10.1002/mrm.24396

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    3. You have full text access to this OnlineOpen article
    4. Per-subject characterization of bolus width in pulsed arterial spin labeling using bolus turbo sampling (pages 1677–1682)

      M. Villien, E. Chipon, I. Troprès, J. Bouvier, S. Cantin, D. Chechin, J.-F. Le Bas, A. Krainik and J. M. Warnking

      Version of Record online: 24 JUL 2012 | DOI: 10.1002/mrm.24412

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    5. Accelerated fluorine-19 MRI cell tracking using compressed sensing (pages 1683–1690)

      Jia Zhong, Parker H. Mills, T. Kevin Hitchens and Eric T. Ahrens

      Version of Record online: 26 JUL 2012 | DOI: 10.1002/mrm.24414

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    6. Simultaneous single-quantum and triple-quantum-filtered MRI of 23Na (SISTINA) (pages 1691–1696)

      Daniel P. Fiege, Sandro Romanzetti, Christian C. Mirkes, Daniel Brenner and N. Jon Shah

      Version of Record online: 24 JUL 2012 | DOI: 10.1002/mrm.24417

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    7. Skeletal age assessment in children using an open compact MRI system (pages 1697–1702)

      Yasuhiko Terada, Saki Kono, Daiki Tamada, Tomomi Uchiumi, Katsumi Kose, Ryo Miyagi, Eiko Yamabe and Hiroshi Yoshioka

      Version of Record online: 31 JUL 2012 | DOI: 10.1002/mrm.24439

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  8. Preclinical and Clinical Imaging—Full Paper

    1. Top of page
    2. Cover Image
    3. Masthead
    4. Spectroscopic Methodology—Full Paper
    5. Spectroscopic Methodology—Note
    6. Imaging Methodology—Rapid Communication
    7. Imaging Methodology—Full Paper
    8. Imaging Methodology—Note
    9. Preclinical and Clinical Imaging—Full Paper
    10. Preclinical and Clinical Imaging—Note
    11. Biophysics and Basic Biomedical Research—Rapid Communication
    12. Biophysics and Basic Biomedical Research—Note
    13. Computer Processing and Modeling—Full Paper
    14. Computer Processing and Modeling—Note
    15. Hardware and Instrumentation—Full Paper
    16. Hardware and Instrumentation—Note
    17. Erratum
    1. In vivo MRI visualization of different cell populations labeled with PARACEST agents (pages 1703–1711)

      Giuseppe Ferrauto, Daniela Delli Castelli, Enzo Terreno and Silvio Aime

      Version of Record online: 26 JUL 2012 | DOI: 10.1002/mrm.24411

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    2. Assessing the reproducibility of dynamic contrast enhanced magnetic resonance imaging in a murine model of breast cancer (pages 1721–1734)

      Stephanie L. Barnes, Jennifer G. Whisenant, Mary E. Loveless, Gregory D. Ayers and Thomas E. Yankeelov

      Version of Record online: 27 JUL 2012 | DOI: 10.1002/mrm.24422

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    3. Quantitative first-pass perfusion MRI of the mouse myocardium (pages 1735–1744)

      Bastiaan J. van Nierop, Bram F. Coolen, Wouter J.R. Dijk, Arjan D. Hendriks, Larry de Graaf, Klaas Nicolay and Gustav J. Strijkers

      Version of Record online: 20 AUG 2012 | DOI: 10.1002/mrm.24424

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  9. Preclinical and Clinical Imaging—Note

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

    1. Top of page
    2. Cover Image
    3. Masthead
    4. Spectroscopic Methodology—Full Paper
    5. Spectroscopic Methodology—Note
    6. Imaging Methodology—Rapid Communication
    7. Imaging Methodology—Full Paper
    8. Imaging Methodology—Note
    9. Preclinical and Clinical Imaging—Full Paper
    10. Preclinical and Clinical Imaging—Note
    11. Biophysics and Basic Biomedical Research—Rapid Communication
    12. Biophysics and Basic Biomedical Research—Note
    13. Computer Processing and Modeling—Full Paper
    14. Computer Processing and Modeling—Note
    15. Hardware and Instrumentation—Full Paper
    16. Hardware and Instrumentation—Note
    17. Erratum
    1. Experimentally and computationally fast method for estimation of a mean kurtosis (pages 1754–1760)

      Brian Hansen, Torben E. Lund, Ryan Sangill and Sune Nørhøj Jespersen

      Version of Record online: 15 APR 2013 | DOI: 10.1002/mrm.24743

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  11. Biophysics and Basic Biomedical Research—Note

    1. Top of page
    2. Cover Image
    3. Masthead
    4. Spectroscopic Methodology—Full Paper
    5. Spectroscopic Methodology—Note
    6. Imaging Methodology—Rapid Communication
    7. Imaging Methodology—Full Paper
    8. Imaging Methodology—Note
    9. Preclinical and Clinical Imaging—Full Paper
    10. Preclinical and Clinical Imaging—Note
    11. Biophysics and Basic Biomedical Research—Rapid Communication
    12. Biophysics and Basic Biomedical Research—Note
    13. Computer Processing and Modeling—Full Paper
    14. Computer Processing and Modeling—Note
    15. Hardware and Instrumentation—Full Paper
    16. Hardware and Instrumentation—Note
    17. Erratum
    1. Toward cardiovascular interventions guided by magnetic particle imaging: First instrument characterization (pages 1761–1767)

      Julian Haegele, Sven Biederer, Hanne Wojtczyk, Matthias Gräser, Tobias Knopp, Thorsten M. Buzug, Jörg Barkhausen and Florian M. Vogt

      Version of Record online: 24 JUL 2012 | DOI: 10.1002/mrm.24421

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  12. Computer Processing and Modeling—Full Paper

    1. Top of page
    2. Cover Image
    3. Masthead
    4. Spectroscopic Methodology—Full Paper
    5. Spectroscopic Methodology—Note
    6. Imaging Methodology—Rapid Communication
    7. Imaging Methodology—Full Paper
    8. Imaging Methodology—Note
    9. Preclinical and Clinical Imaging—Full Paper
    10. Preclinical and Clinical Imaging—Note
    11. Biophysics and Basic Biomedical Research—Rapid Communication
    12. Biophysics and Basic Biomedical Research—Note
    13. Computer Processing and Modeling—Full Paper
    14. Computer Processing and Modeling—Note
    15. Hardware and Instrumentation—Full Paper
    16. Hardware and Instrumentation—Note
    17. Erratum
    1. Gadgetron: An open source framework for medical image reconstruction (pages 1768–1776)

      Michael Schacht Hansen and Thomas Sangild Sørensen

      Version of Record online: 12 JUL 2012 | DOI: 10.1002/mrm.24389

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    2. Automated algorithm for reconstruction of the complete spine from multistation 7T MR data (pages 1777–1786)

      Oleh Dzyubachyk, Boudewijn P. F. Lelieveldt, Jorik Blaas, Monique Reijnierse, Andrew Webb and Rob J. van der Geest

      Version of Record online: 20 JUL 2012 | DOI: 10.1002/mrm.24404

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  13. Computer Processing and Modeling—Note

    1. Top of page
    2. Cover Image
    3. Masthead
    4. Spectroscopic Methodology—Full Paper
    5. Spectroscopic Methodology—Note
    6. Imaging Methodology—Rapid Communication
    7. Imaging Methodology—Full Paper
    8. Imaging Methodology—Note
    9. Preclinical and Clinical Imaging—Full Paper
    10. Preclinical and Clinical Imaging—Note
    11. Biophysics and Basic Biomedical Research—Rapid Communication
    12. Biophysics and Basic Biomedical Research—Note
    13. Computer Processing and Modeling—Full Paper
    14. Computer Processing and Modeling—Note
    15. Hardware and Instrumentation—Full Paper
    16. Hardware and Instrumentation—Note
    17. Erratum
    1. Estimating T1 from multichannel variable flip angle SPGR sequences (pages 1787–1794)

      Joshua D. Trzasko, Petrice M. Mostardi, Stephen J. Riederer and Armando Manduca

      Version of Record online: 17 JUL 2012 | DOI: 10.1002/mrm.24401

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  14. Hardware and Instrumentation—Full Paper

    1. Top of page
    2. Cover Image
    3. Masthead
    4. Spectroscopic Methodology—Full Paper
    5. Spectroscopic Methodology—Note
    6. Imaging Methodology—Rapid Communication
    7. Imaging Methodology—Full Paper
    8. Imaging Methodology—Note
    9. Preclinical and Clinical Imaging—Full Paper
    10. Preclinical and Clinical Imaging—Note
    11. Biophysics and Basic Biomedical Research—Rapid Communication
    12. Biophysics and Basic Biomedical Research—Note
    13. Computer Processing and Modeling—Full Paper
    14. Computer Processing and Modeling—Note
    15. Hardware and Instrumentation—Full Paper
    16. Hardware and Instrumentation—Note
    17. Erratum
    1. Hybrid ultra-low-field MRI and magnetoencephalography system based on a commercial whole-head neuromagnetometer (pages 1795–1804)

      Panu T. Vesanen, Jaakko O. Nieminen, Koos C. J. Zevenhoven, Juhani Dabek, Lauri T. Parkkonen, Andrey V. Zhdanov, Juho Luomahaara, Juha Hassel, Jari Penttilä, Juha Simola, Antti I. Ahonen, Jyrki P. Mäkelä and Risto J. Ilmoniemi

      Version of Record online: 17 JUL 2012 | DOI: 10.1002/mrm.24413

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  15. Hardware and Instrumentation—Note

    1. Top of page
    2. Cover Image
    3. Masthead
    4. Spectroscopic Methodology—Full Paper
    5. Spectroscopic Methodology—Note
    6. Imaging Methodology—Rapid Communication
    7. Imaging Methodology—Full Paper
    8. Imaging Methodology—Note
    9. Preclinical and Clinical Imaging—Full Paper
    10. Preclinical and Clinical Imaging—Note
    11. Biophysics and Basic Biomedical Research—Rapid Communication
    12. Biophysics and Basic Biomedical Research—Note
    13. Computer Processing and Modeling—Full Paper
    14. Computer Processing and Modeling—Note
    15. Hardware and Instrumentation—Full Paper
    16. Hardware and Instrumentation—Note
    17. Erratum
    1. Optimum coupling and multimode excitation of traveling-waves in a whole-body 9.4T scanner (pages 1805–1812)

      Frank H. Geschewski, Daniel Brenner, Jörg Felder and N. Jon Shah

      Version of Record online: 10 JUL 2012 | DOI: 10.1002/mrm.24403

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  16. Erratum

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

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