TY - JOUR
T1 - Improved correspondence of fMRI visual field localizer data after cortex-based macroanatomical alignment
AU - Qubad, Mishal
AU - Barnes-Scheufler, Catherine V.
AU - Schaum, Michael
AU - Raspor, Eva
AU - Rösler, Lara
AU - Peters, Benjamin
AU - Schiweck, Carmen
AU - Goebel, Rainer
AU - Reif, Andreas
AU - Bittner, Robert A.
PY - 2022/8/22
Y1 - 2022/8/22
N2 - Studying the visual system with fMRI often requires using localizer paradigms to define regions of interest (ROIs). However, the considerable interindividual variability of the cerebral cortex represents a crucial confound for group-level analyses. Cortex-based alignment (CBA) techniques reliably reduce interindividual macroanatomical variability. Yet, their utility has not been assessed for visual field localizer paradigms, which map specific parts of the visual field within retinotopically organized visual areas. We evaluated CBA for an attention-enhanced visual field localizer, mapping homologous parts of each visual quadrant in 50 participants. We compared CBA with volume-based alignment and a surface-based analysis, which did not include macroanatomical alignment. CBA led to the strongest increase in the probability of activation overlap (up to 86%). At the group level, CBA led to the most consistent increase in ROI size while preserving vertical ROI symmetry. Overall, our results indicate that in addition to the increased signal-to-noise ratio of a surface-based analysis, macroanatomical alignment considerably improves statistical power. These findings confirm and extend the utility of CBA for the study of the visual system in the context of group analyses. CBA should be particularly relevant when studying neuropsychiatric disorders with abnormally increased interindividual macroanatomical variability.
AB - Studying the visual system with fMRI often requires using localizer paradigms to define regions of interest (ROIs). However, the considerable interindividual variability of the cerebral cortex represents a crucial confound for group-level analyses. Cortex-based alignment (CBA) techniques reliably reduce interindividual macroanatomical variability. Yet, their utility has not been assessed for visual field localizer paradigms, which map specific parts of the visual field within retinotopically organized visual areas. We evaluated CBA for an attention-enhanced visual field localizer, mapping homologous parts of each visual quadrant in 50 participants. We compared CBA with volume-based alignment and a surface-based analysis, which did not include macroanatomical alignment. CBA led to the strongest increase in the probability of activation overlap (up to 86%). At the group level, CBA led to the most consistent increase in ROI size while preserving vertical ROI symmetry. Overall, our results indicate that in addition to the increased signal-to-noise ratio of a surface-based analysis, macroanatomical alignment considerably improves statistical power. These findings confirm and extend the utility of CBA for the study of the visual system in the context of group analyses. CBA should be particularly relevant when studying neuropsychiatric disorders with abnormally increased interindividual macroanatomical variability.
UR - http://www.scopus.com/inward/record.url?scp=85136192623&partnerID=8YFLogxK
U2 - 10.1038/s41598-022-17909-2
DO - 10.1038/s41598-022-17909-2
M3 - Article
C2 - 35995943
AN - SCOPUS:85136192623
SN - 2045-2322
VL - 12
SP - 1
EP - 21
JO - Scientific Reports
JF - Scientific Reports
M1 - 14310
ER -