Litcius/Paper detail

A genuine interindividual variability in number and anatomical localization of face-selective regions in the human brain

Xiaoqing Gao, Minjie Wen, Mengdan Sun, Bruno Rossion

2021Cerebral Cortex18 citationsDOI

Abstract

Neuroimaging studies have reported regions with more neural activation to face than nonface stimuli in the human occipitotemporal cortex for three decades. Here we used a highly sensitive and reliable frequency-tagging functional magnetic resonance imaging paradigm measuring high-level face-selective neural activity to assess interindividual variability in the localization and number of face-selective clusters. Although the majority of these clusters are located in the same cortical gyri and sulci across 25 adult brains, a volume-based analysis of unsmoothed data reveals a large amount of interindividual variability in their spatial distribution and number, particularly in the ventral occipitotemporal cortex. In contrast to the widely held assumption, these face-selective clusters cannot be objectively related on a one-to-one basis across individual brains, do not correspond to a single cytoarchitectonic region, and are not clearly demarcated by estimated posteroanterior cytoarchitectonic borders. Interindividual variability in localization and number of cortical face-selective clusters does not appear to be due to the measurement noise but seems to be genuine, casting doubt on definite labeling and interindividual correspondence of face-selective "areas" and questioning their a priori definition based on cytoarchitectony or probabilistic atlases of independent datasets. These observations challenge conventional models of human face recognition based on a fixed number of discrete neurofunctional information processing stages.

Topics & Concepts

NeuroscienceNeuroimagingFunctional magnetic resonance imagingFace (sociological concept)Fusiform face areaCytoarchitectureHuman brainPsychologyPattern recognition (psychology)Brain mappingContrast (vision)Cortex (anatomy)Temporal cortexMacaqueArtificial intelligenceFace perceptionComputer scienceCognitive psychologyPerceptionSocial scienceSociologyFace Recognition and PerceptionFunctional Brain Connectivity StudiesNeural dynamics and brain function