PURPOSE: To investigate the feasibility of using time-of-flight (TOF) images as a constraint in the reconstruction of a series of highly undersampled time-resolved contrast-enhanced MR images (HYPR TOF), to allow simultaneously high temporal and spatial resolution and increased SNR. MATERIALS AND METHODS: Ten healthy volunteers and three patients with aneurysms underwent a HYPR TOF study, which includes a clinical routine TOF scan followed by a first pass time-resolved contrast-enhanced exam using an undersampled three-dimensional (3D) projection trajectory (VIPR). Image quality, waveform fidelity and signal to background variation ratio measurements were compared between HYPR TOF images and VIPR images without HYPR reconstruction. RESULTS: Volunteer results demonstrated the feasibility of using the clinical routine TOF as the spatial constraint to reconstruct the first pass time-resolved contrast-enhanced MRA acquired using highly undersampled 3D projection trajectory (VIPR). All the HYPR TOF images are superior to the corresponding VIPR images with the same temporal reconstruction window on both spatial resolution and SNR. CONCLUSION: HYPR TOF improves the spatial resolution and SNR of the rapidly acquired dynamic images without losing the temporal information.
PURPOSE: To investigate the feasibility of using time-of-flight (TOF) images as a constraint in the reconstruction of a series of highly undersampled time-resolved contrast-enhanced MR images (HYPR TOF), to allow simultaneously high temporal and spatial resolution and increased SNR. MATERIALS AND METHODS: Ten healthy volunteers and three patients with aneurysms underwent a HYPR TOF study, which includes a clinical routine TOF scan followed by a first pass time-resolved contrast-enhanced exam using an undersampled three-dimensional (3D) projection trajectory (VIPR). Image quality, waveform fidelity and signal to background variation ratio measurements were compared between HYPR TOF images and VIPR images without HYPR reconstruction. RESULTS: Volunteer results demonstrated the feasibility of using the clinical routine TOF as the spatial constraint to reconstruct the first pass time-resolved contrast-enhanced MRA acquired using highly undersampled 3D projection trajectory (VIPR). All the HYPR TOF images are superior to the corresponding VIPR images with the same temporal reconstruction window on both spatial resolution and SNR. CONCLUSION: HYPR TOF improves the spatial resolution and SNR of the rapidly acquired dynamic images without losing the temporal information.
Authors: D C Peters; F R Korosec; T M Grist; W F Block; J E Holden; K K Vigen; C A Mistretta Journal: Magn Reson Med Date: 2000-01 Impact factor: 4.668
Authors: Mark A Griswold; Peter M Jakob; Robin M Heidemann; Mathias Nittka; Vladimir Jellus; Jianmin Wang; Berthold Kiefer; Axel Haase Journal: Magn Reson Med Date: 2002-06 Impact factor: 4.668
Authors: Andrew V Barger; Walter F Block; Yuriy Toropov; Thomas M Grist; Charles A Mistretta Journal: Magn Reson Med Date: 2002-08 Impact factor: 4.668
Authors: Kevin M Johnson; Julia Velikina; Yijing Wu; Steve Kecskemeti; Oliver Wieben; Charles A Mistretta Journal: Magn Reson Med Date: 2008-03 Impact factor: 4.668
Authors: Stephen J Riederer; Clifton R Haider; Eric A Borisch; Paul T Weavers; Phillip M Young Journal: J Magn Reson Imaging Date: 2015-06-01 Impact factor: 4.813