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Properties of face localizers and their application in fMRI fingerprinting
{Functional localizers are particularly prevalent in functional magnetic resonance imaging (fMRI) studies concerning face processing. In this study, we extend the knowledge on face localizers regarding four important aspects: First, activation differences in occipital and fusiform face areas (OFA/FFA) and amygdala are characterized by increased activation while precuneus and medial prefrontal cortex show decreased deactivation to faces versus control stimuli. The face-selective posterior superior temporal sulcus is a hybrid area exhibiting increased activation within its inferior and decreased deactivation within its superior part. Second, the employed control stimuli can impact on whether a region is classified as face-selective or not. We specifically investigated this for recently described subregions of the FFA (FFA-1/FFA-2). While FFA-2 responded stronger to faces than to objects, houses, or landscapes, FFA-1 was only detected with landscapes as control condition. Third, reproducibility of individual peak activations is excellent for right FFA and quite good for right OFA, whereas within all other areas it was too low to provide valid information on time-invariant individual peaks. Finally, the fine-grained spatial activation patterns in right OFA and FFA are both time-invariant within each individual and sufficiently different between individuals to enable identification of individual participants with near-perfect precision (fMRI fingerprinting).}
@misc{EthoferKWESS2018, title = {{Properties of face localizers and their application in fMRI fingerprinting}}, booktitle = {{Alpine Brain Imaging Meeting (ABIM 2018)}}, abstract = {{Functional localizers are particularly prevalent in functional magnetic resonance imaging (fMRI) studies concerning face processing. In this study, we extend the knowledge on face localizers regarding four important aspects: First, activation differences in occipital and fusiform face areas (OFA/FFA) and amygdala are characterized by increased activation while precuneus and medial prefrontal cortex show decreased deactivation to faces versus control stimuli. The face-selective posterior superior temporal sulcus is a hybrid area exhibiting increased activation within its inferior and decreased deactivation within its superior part. Second, the employed control stimuli can impact on whether a region is classified as face-selective or not. We specifically investigated this for recently described subregions of the FFA (FFA-1/FFA-2). While FFA-2 responded stronger to faces than to objects, houses, or landscapes, FFA-1 was only detected with landscapes as control condition. Third, reproducibility of individual peak activations is excellent for right FFA and quite good for right OFA, whereas within all other areas it was too low to provide valid information on time-invariant individual peaks. Finally, the fine-grained spatial activation patterns in right OFA and FFA are both time-invariant within each individual and sufficiently different between individuals to enable identification of individual participants with near-perfect precision (fMRI fingerprinting).}}, pages = {100}, year = {2018}, slug = {ethoferkwess2018}, author = {Ethofer, T and Kreifelts, B and Wildgruber, D and Erb, M and Scheffler, K and Schwarz, L} }