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Correcting Dynamic Distortions in 7T Echo Planar Imaging using a Jittered Echo Time Sequence
AuthorRobinson, Simon D. ; Trattnig, Siegfried ; Barth, Markus ; Cardoso, Pedro ; Eckstein, Korbinian ; Visser, Eelke ; Bogner, Wolfgang ; Poser, Benedikt A. ; Dymerska, Barbara
Published in
Magnetic Resonance in Medicine, Hoboken, 2016, Vol. 76, Issue 5, page 1388-1399
PublishedHoboken : Wiley-Blackwell, 2016
Document typeJournal Article
Keywords (EN)field mapping / dynamic distortion correction / ultra-high field / epi / fmri / respiration effects / geometric distortion / field / susceptibility / contrast / motion / tesla / quantification / emotions
Project-/ReportnumberKLI 264
URNurn:nbn:at:at-ubmuw:3-1403 Persistent Identifier (URN)
 The work is publicly available
Correcting Dynamic Distortions in 7T Echo Planar Imaging using a Jittered Echo Time Sequence [4.5 mb]
Abstract (English)

Purpose: To develop a distortion correction method for echo planar imaging (EPI) that is able to measure dynamic changes in B-0. Theory and Methods: The approach we propose is based on single-echo EPI with a jittering of the echo time between two values for alternate time points. Field maps are calculated between phase images from adjacent volumes and are used to remove distortion from corresponding magnitude images. The performance of our approach was optimized using an analytical model and by comparison with field maps from dual-echo EPI. The method was tested in functional MRI experiments at 7T with motor tasks and compared with the conventional static approach. Results: Unwarping using our method was accurate even for head rotations up to 8.2 degrees, where the static approach introduced errors up to 8.2 mm. Jittering the echo time between 19 and 25 ms had no measurable effect on blood oxygenation level-dependent (BOLD) sensitivity. Our approach reduced the distortions in activated regions to <1 mm and repositioned active voxels correctly. Conclusion: This method yields accurate distortion correction in the presence of motion. No reduction in BOLD sensitivity was observed. As such, it is suitable for application in a wide range of functional MRI experiments. (C) 2015 The Authors Magnetic Resonance in Medicine published by Wiley Periodicals, Inc. on behalf of International Society for Magnetic Resonance in Medicine.

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