Literature DB >> 22139829

Contrast enhancement in TOF cerebral angiography at 7 T using saturation and MT pulses under SAR constraints: impact of VERSE and sparse pulses.

Sebastian Schmitter1, Michael Bock, Sören Johst, Edward J Auerbach, Kâmil Uğurbil, Pierre-François Van de Moortele.   

Abstract

Cerebral three-dimensional time of flight (TOF) angiography significantly benefits from ultrahigh fields, mainly due to higher signal-to-noise ratio and to longer T(1) relaxation time of static brain tissues; however, specific absorption rate (SAR) significantly increases with B(0). Thus, additional radiofrequency pulses commonly used at lower field strengths to improve TOF contrast such as saturation of venous signal and improved background suppression by magnetization transfer typically cannot be used at higher fields. In this work, we aimed at reducing SAR for each radiofrequency pulse category in a TOF sequence. We use the variable-rate selective excitation principle for the slab selective TOF excitation as well as the venous saturation radiofrequency pulses. In addition, magnetization transfer pulses are implemented by sparsely applying the pulses only during acquisition of the central k-space lines to limit their SAR contribution. Image quality, angiographic contrast, and SAR reduction were investigated as a function of variable-rate selective excitation parameters and of the total number of magnetization transfer pulses applied. Based on these results, a TOF protocol was generated that increases the angiographic contrast by more than 50% and reduces subcutaneous fat signal while keeping the resulting SAR within regulatory limits.
Copyright © 2011 Wiley Periodicals, Inc.

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Year:  2011        PMID: 22139829      PMCID: PMC3297688          DOI: 10.1002/mrm.23226

Source DB:  PubMed          Journal:  Magn Reson Med        ISSN: 0740-3194            Impact factor:   4.668


  21 in total

1.  Improved time-of-flight MR angiography of the brain with magnetization transfer contrast.

Authors:  R R Edelman; S S Ahn; D Chien; W Li; A Goldmann; M Mantello; J Kramer; J Kleefield
Journal:  Radiology       Date:  1992-08       Impact factor: 11.105

2.  Actual flip-angle imaging in the pulsed steady state: a method for rapid three-dimensional mapping of the transmitted radiofrequency field.

Authors:  Vasily L Yarnykh
Journal:  Magn Reson Med       Date:  2007-01       Impact factor: 4.668

3.  Intracranial time-of-flight MR angiography at 7T with comparison to 3T.

Authors:  Cornelius von Morze; Duan Xu; Derk D Purcell; Christopher P Hess; Pratik Mukherjee; David Saloner; Douglas A C Kelley; Daniel B Vigneron
Journal:  J Magn Reson Imaging       Date:  2007-10       Impact factor: 4.813

4.  A geometrically adjustable 16-channel transmit/receive transmission line array for improved RF efficiency and parallel imaging performance at 7 Tesla.

Authors:  Gregor Adriany; Pierre-Francois Van de Moortele; Johannes Ritter; Steen Moeller; Edward J Auerbach; Can Akgün; Carl J Snyder; Thomas Vaughan; Kâmil Uğurbil
Journal:  Magn Reson Med       Date:  2008-03       Impact factor: 4.668

5.  To TOF or not to TOF: strategies for non-contrast-enhanced intracranial MRA at 7 T.

Authors:  Stefan Maderwald; Susanne C Ladd; Elke R Gizewski; Oliver Kraff; Jens M Theysohn; Karsten Wicklow; Christoph Moenninghoff; Isabel Wanke; Mark E Ladd; Harald H Quick
Journal:  MAGMA       Date:  2008-01-04       Impact factor: 2.310

6.  SLIP, a lipid suppression technique to improve image contrast in inflow angiography.

Authors:  M Doyle; T Matsuda; G M Pohost
Journal:  Magn Reson Med       Date:  1991-09       Impact factor: 4.668

7.  The application of magnetization transfer to MR angiography with reduced total power.

Authors:  D L Parker; H R Buswell; K C Goodrich; A L Alexander; N Keck; J S Tsuruda
Journal:  Magn Reson Med       Date:  1995-08       Impact factor: 4.668

8.  A novel saturation transfer contrast method for 3D time-of-flight magnetic resonance angiography: a slice-selective off-resonance sinc pulse (SORS) technique.

Authors:  M Miyazaki; F Kojima; N Ichinose; Y Onozato; H Igarashi
Journal:  Magn Reson Med       Date:  1994-07       Impact factor: 4.668

9.  Magnetic field and tissue dependencies of human brain longitudinal 1H2O relaxation in vivo.

Authors:  William D Rooney; Glyn Johnson; Xin Li; Eric R Cohen; Seong-Gi Kim; Kamil Ugurbil; Charles S Springer
Journal:  Magn Reson Med       Date:  2007-02       Impact factor: 4.668

10.  Improved MR angiography: magnetization transfer suppression with variable flip angle excitation and increased resolution.

Authors:  D Atkinson; M Brant-Zawadzki; G Gillan; D Purdy; G Laub
Journal:  Radiology       Date:  1994-03       Impact factor: 11.105
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  14 in total

1.  Direct control of the temperature rise in parallel transmission by means of temperature virtual observation points: Simulations at 10.5 Tesla.

Authors:  Nicolas Boulant; Xiaoping Wu; Gregor Adriany; Sebastian Schmitter; Kamil Uğurbil; Pierre-François Van de Moortele
Journal:  Magn Reson Med       Date:  2015-03-05       Impact factor: 4.668

2.  Prospective motion correction enables highest resolution time-of-flight angiography at 7T.

Authors:  Hendrik Mattern; Alessandro Sciarra; Frank Godenschweger; Daniel Stucht; Falk Lüsebrink; Georg Rose; Oliver Speck
Journal:  Magn Reson Med       Date:  2017-12-11       Impact factor: 4.668

3.  Multivariable Technique for the Evaluation of the Trans-stenotic Pressure Gradient.

Authors:  Junghun Kim; Jongmin Lee; Jieun Park
Journal:  Cardiovasc Eng Technol       Date:  2022-07-25       Impact factor: 2.305

4.  Non-enhanced magnetic resonance imaging of unruptured intracranial aneurysms at 7 Tesla: Comparison with digital subtraction angiography.

Authors:  Karsten H Wrede; Toshinori Matsushige; Sophia L Goericke; Bixia Chen; Lale Umutlu; Harald H Quick; Mark E Ladd; Sören Johst; Michael Forsting; Ulrich Sure; Marc Schlamann
Journal:  Eur Radiol       Date:  2016-03-18       Impact factor: 5.315

5.  From complex B(1) mapping to local SAR estimation for human brain MR imaging using multi-channel transceiver coil at 7T.

Authors:  Xiaotong Zhang; Sebastian Schmitter; Pierre-Francois Van de Moortele; Jiaen Liu; Bin He
Journal:  IEEE Trans Med Imaging       Date:  2013-03-11       Impact factor: 10.048

6.  Seven-tesla time-of-flight angiography using a 16-channel parallel transmit system with power-constrained 3-dimensional spoke radiofrequency pulse design.

Authors:  Sebastian Schmitter; Xiaoping Wu; Edward J Auerbach; Gregor Adriany; Josef Pfeuffer; Michael Hamm; Kâmil Uğurbil; Pierre-François van de Moortele
Journal:  Invest Radiol       Date:  2014-05       Impact factor: 6.016

7.  Cardiac imaging at 7 Tesla: Single- and two-spoke radiofrequency pulse design with 16-channel parallel excitation.

Authors:  Sebastian Schmitter; Lance DelaBarre; Xiaoping Wu; Andreas Greiser; Dingxin Wang; Edward J Auerbach; J Thomas Vaughan; Kâmil Uğurbil; Pierre-François Van de Moortele
Journal:  Magn Reson Med       Date:  2013-09-10       Impact factor: 4.668

8.  Cerebral TOF angiography at 7T: Impact of B1 (+) shimming with a 16-channel transceiver array.

Authors:  Sebastian Schmitter; Xiaoping Wu; Gregor Adriany; Edward J Auerbach; Kâmil Uğurbil; Pierre-François Moortele
Journal:  Magn Reson Med       Date:  2014-03       Impact factor: 4.668

9.  Improved cerebral time-of-flight magnetic resonance angiography at 7 Tesla--feasibility study and preliminary results using optimized venous saturation pulses.

Authors:  Karsten H Wrede; Sören Johst; Philipp Dammann; Neriman Özkan; Christoph Mönninghoff; Markus Kraemer; Stefan Maderwald; Mark E Ladd; Ulrich Sure; Lale Umutlu; Marc Schlamann
Journal:  PLoS One       Date:  2014-09-18       Impact factor: 3.240

10.  Investigation of the saturation pulse artifact in non-enhanced MR angiography of the lower extremity arteries at 7 Tesla.

Authors:  Sören Johst; Stefan Maderwald; Anja Fischer; Harald H Quick; Mark E Ladd; Stephan Orzada
Journal:  PLoS One       Date:  2015-03-18       Impact factor: 3.240
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