PURPOSE: To compare the performance of single shot echo planar imaging (SSEPI) with three-dimensional-multishot echo-planar imaging (EPI) based on principles-of-echo-shifting-with-a-train-of-observations (PRESTO) in combination with a standard quadrature head coil and, as an alternative, a multiple receiver coil in intraoperative functional magnetic resonance imaging (fMRI). MATERIALS AND METHODS: Six healthy subjects underwent fMRI with visual stimulation using a SSEPI and a PRESTO-sequence with both coil systems. Statistical evaluation was done with a scanner-based post-processing software and SPM 99. The number of activated voxels in the visual cortex, the percent signal change between rest and activation, and finally the signal-to-noise ratio (SNR) during time course were measured and compared for both coil systems and both sequences, used in four different combinations. RESULTS: Blood oxygen level dependent (BOLD) signal changes were the lowest with PRESTO and standard head coil and the highest for SSEPI and phased array coil. For the latter combination, a significantly higher signal change and larger activation size was observed together with a better SNR. SSEPI yielded similar performance using both coils. CONCLUSION: SSEPI was superior due to its better SNR and a higher BOLD signal change in the defined settings, irrespective of the coil used. In a stereotactical setup the phased array coil can be used to generate fMRI data without loss of image quality. Copyright 2004 Wiley-Liss, Inc.
PURPOSE: To compare the performance of single shot echo planar imaging (SSEPI) with three-dimensional-multishot echo-planar imaging (EPI) based on principles-of-echo-shifting-with-a-train-of-observations (PRESTO) in combination with a standard quadrature head coil and, as an alternative, a multiple receiver coil in intraoperative functional magnetic resonance imaging (fMRI). MATERIALS AND METHODS: Six healthy subjects underwent fMRI with visual stimulation using a SSEPI and a PRESTO-sequence with both coil systems. Statistical evaluation was done with a scanner-based post-processing software and SPM 99. The number of activated voxels in the visual cortex, the percent signal change between rest and activation, and finally the signal-to-noise ratio (SNR) during time course were measured and compared for both coil systems and both sequences, used in four different combinations. RESULTS: Blood oxygen level dependent (BOLD) signal changes were the lowest with PRESTO and standard head coil and the highest for SSEPI and phased array coil. For the latter combination, a significantly higher signal change and larger activation size was observed together with a better SNR. SSEPI yielded similar performance using both coils. CONCLUSION: SSEPI was superior due to its better SNR and a higher BOLD signal change in the defined settings, irrespective of the coil used. In a stereotactical setup the phased array coil can be used to generate fMRI data without loss of image quality. Copyright 2004 Wiley-Liss, Inc.
Authors: J Albrecht; M Burke; K Haegler; V Schöpf; A M Kleemann; M Paolini; M Wiesmann; J Linn Journal: Clin Neuroradiol Date: 2010-09-21 Impact factor: 3.649
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Authors: Stefan Frässle; Eduardo A Aponte; Saskia Bollmann; Kay H Brodersen; Cao T Do; Olivia K Harrison; Samuel J Harrison; Jakob Heinzle; Sandra Iglesias; Lars Kasper; Ekaterina I Lomakina; Christoph Mathys; Matthias Müller-Schrader; Inês Pereira; Frederike H Petzschner; Sudhir Raman; Dario Schöbi; Birte Toussaint; Lilian A Weber; Yu Yao; Klaas E Stephan Journal: Front Psychiatry Date: 2021-06-02 Impact factor: 4.157
Authors: Jasper Looijestijn; Jan Dirk Blom; Hans W Hoek; Remco Renken; Edith Liemburg; Iris E C Sommer; André Aleman; Rutger Goekoop Journal: Neuroimage Clin Date: 2018-09-21 Impact factor: 4.881