DocumentCode
867717
Title
Increasing the effect size in event-related fMRI studies
Author
McKeown, Martin J. ; Wang, Z. Jane ; Abugharbieh, Rafeef ; Handy, Todd C.
Author_Institution
Pacific Parkinson´´s Res. Centre, British Columbia Univ., Vancouver, BC, Canada
Volume
25
Issue
2
fYear
2006
Firstpage
91
Lastpage
101
Abstract
Independent component analysis (ICA) has proved to be a powerful method for exploratory analysis of functional magnetic resonance imaging (fMRI) data. It has been used to uncover unexpected activations in fMRI data derived from brain activation. ICA has been used to characterize other sources of variability in the fMRI signal besides task-related activity, as well as challenging some of the assumptions inherent in other fMRI analysis methods. As a data-driven fMRI analysis technique, the philosophy of ICA is often in disagreement with hypothesis-driven methods. By exploiting the fact that much of fMRI data has deterministic spatial-temporal structure, a scheme employing ICA denoising and least squares (LS) estimation of the evoked hemodynamic response (HDR) is proposed. Simulations suggest that the method is more robust to different noise models compared to naive application of LS. The result is a considerably increased level of significance of activation for a given voxel but still qualitatively similar spatial distribution of activations over all voxels. This suggests that the proposed method has the potential to substantially reduce total scanning time requirements to achieve the same level of statistically significant activation.
Keywords
bioelectric potentials; biomedical MRI; brain; independent component analysis; least squares approximations; medical image processing; neurophysiology; noise; ICA denoising; brain activation; data-driven fMRI analysis technique; event-related analysis; evoked hemodynamic response; fMRI signal; functional magnetic resonance imaging; hypothesis-driven methods; independent component analysis; least squares estimation; noise models; spatial-temporal structure; task-related activity; Data analysis; Hemodynamics; Image analysis; Independent component analysis; Least squares approximation; Magnetic analysis; Magnetic resonance imaging; Noise reduction; Noise robustness; Signal analysis; Algorithms; Animals; Brain; Brain Mapping; Computer Simulation; Evoked Potentials; Humans; Image Enhancement; Image Interpretation, Computer-Assisted; Imaging, Three-Dimensional; Magnetic Resonance Imaging; Models, Neurological; Models, Statistical; Oxygen; Principal Component Analysis; Research;
fLanguage
English
Journal_Title
Engineering in Medicine and Biology Magazine, IEEE
Publisher
ieee
ISSN
0739-5175
Type
jour
DOI
10.1109/MEMB.2006.1607673
Filename
1607673
Link To Document