PURPOSE: Sensitivity encoding (SENSE) reconstruction of multiband echo planar imaging (EPI) may cause artifacts when simultaneously excited slices require different phase correction to remove the EPI-specific ghost shifted by half of the matrix size (N). We propose a simplified solution of this problem that combines SENSE unfolding with the EPI phase correction in the image domain. THEORY AND METHODS: Slice-dependent phase correction was included in equations linking folded slice images reconstructed separately from even and odd echoes of all receivers with the true images of each slice. Compared with the previously proposed combination of ghost suppression with SENSE based on a direct image fit to echo data, our method reduces the problem complexity by N(2) /4. It was applied to reconstruct images of phantoms and human brain. RESULTS: The proposed method tolerates high differences of phase correction between slices, which may result, e.g., from anisotropic gradient delay. It suppresses artifacts better than standard SENSE even when the latter is repeated with the ghost correction targeting each of the slices and works significantly faster than the direct fit version of ghost-correcting SENSE. CONCLUSION: With the proposed modification SENSE allows a rapid separation of slices simultaneously acquired with EPI even when the phase correction needed for each slice is different. Magn Reson Med 76:873-879, 2016.
PURPOSE: Sensitivity encoding (SENSE) reconstruction of multiband echo planar imaging (EPI) may cause artifacts when simultaneously excited slices require different phase correction to remove the EPI-specific ghost shifted by half of the matrix size (N). We propose a simplified solution of this problem that combines SENSE unfolding with the EPI phase correction in the image domain. THEORY AND METHODS: Slice-dependent phase correction was included in equations linking folded slice images reconstructed separately from even and odd echoes of all receivers with the true images of each slice. Compared with the previously proposed combination of ghost suppression with SENSE based on a direct image fit to echo data, our method reduces the problem complexity by N(2) /4. It was applied to reconstruct images of phantoms and human brain. RESULTS: The proposed method tolerates high differences of phase correction between slices, which may result, e.g., from anisotropic gradient delay. It suppresses artifacts better than standard SENSE even when the latter is repeated with the ghost correction targeting each of the slices and works significantly faster than the direct fit version of ghost-correcting SENSE. CONCLUSION: With the proposed modification SENSE allows a rapid separation of slices simultaneously acquired with EPI even when the phase correction needed for each slice is different. Magn Reson Med 76:873-879, 2016.
Authors: Kangrong Zhu; Robert F Dougherty; Hua Wu; Matthew J Middione; Atsushi M Takahashi; Tao Zhang; John M Pauly; Adam B Kerr Journal: IEEE Trans Med Imaging Date: 2016-02-18 Impact factor: 10.048
Authors: A David Edwards; Daniel Rueckert; Stephen M Smith; Samy Abo Seada; Amir Alansary; Jennifer Almalbis; Joanna Allsop; Jesper Andersson; Tomoki Arichi; Sophie Arulkumaran; Matteo Bastiani; Dafnis Batalle; Luke Baxter; Jelena Bozek; Eleanor Braithwaite; Jacqueline Brandon; Olivia Carney; Andrew Chew; Daan Christiaens; Raymond Chung; Kathleen Colford; Lucilio Cordero-Grande; Serena J Counsell; Harriet Cullen; John Cupitt; Charles Curtis; Alice Davidson; Maria Deprez; Louise Dillon; Konstantina Dimitrakopoulou; Ralica Dimitrova; Eugene Duff; Shona Falconer; Seyedeh-Rezvan Farahibozorg; Sean P Fitzgibbon; Jianliang Gao; Andreia Gaspar; Nicholas Harper; Sam J Harrison; Emer J Hughes; Jana Hutter; Mark Jenkinson; Saad Jbabdi; Emily Jones; Vyacheslav Karolis; Vanessa Kyriakopoulou; Gregor Lenz; Antonios Makropoulos; Shaihan Malik; Luke Mason; Filippo Mortari; Chiara Nosarti; Rita G Nunes; Camilla O'Keeffe; Jonathan O'Muircheartaigh; Hamel Patel; Jonathan Passerat-Palmbach; Maximillian Pietsch; Anthony N Price; Emma C Robinson; Mary A Rutherford; Andreas Schuh; Stamatios Sotiropoulos; Johannes Steinweg; Rui Pedro Azeredo Gomes Teixeira; Tencho Tenev; Jacques-Donald Tournier; Nora Tusor; Alena Uus; Katy Vecchiato; Logan Z J Williams; Robert Wright; Julia Wurie; Joseph V Hajnal Journal: Front Neurosci Date: 2022-05-23 Impact factor: 5.152
Authors: Maximilian Pietsch; Daan Christiaens; Jana Hutter; Lucilio Cordero-Grande; Anthony N Price; Emer Hughes; A David Edwards; Joseph V Hajnal; Serena J Counsell; J-Donald Tournier Journal: Neuroimage Date: 2018-11-02 Impact factor: 6.556