| Abstract: | Partial Fourier (PF) methods take advantage of data symmetry to allow for either faster image acquisition or increased image resolution, Faster acquisition and increased spatial resolution are advantageous for fMRl because of increased temporal resolution and/or reduced partial volume effects, respectively. Standard PF methods, which use a phase reference obtained from a low resolution image, are adequate for the reconstruction of time-stationary images acquired using either spin echoes or short TE gradient echoes. In fMRI, however, multiple images are acquired using long TE gradient echoes, which introduces possible phase drifts in the fMRl data and high spatial frequencies in the phase reference. This work investigates several techniques developed to reconstruct fMRl data obtained with PF acquisitions. PF methods that account for both high-frequency spatial variations and time-dependent drifts in the phase reference are discussed and are quantitatively evaluated using receiver operator characteristic curve analysis. |
