Artículos de revistas
Neuroanatomical markers of social hierarchy recognition in humans: A combined ERP/MRI study
Fecha
2015-07Registro en:
Santamaria Garcia, Hernando; Burgaleta, Miguel; Sebastián-Gallés, Nuria; Neuroanatomical markers of social hierarchy recognition in humans: A combined ERP/MRI study; Society for Neuroscience; Journal of Neuroscience; 35; 30; 7-2015; 10843-10850
0270-6474
1529-2401
CONICET Digital
CONICET
Autor
Santamaria Garcia, Hernando
Burgaleta, Miguel
Sebastián-Gallés, Nuria
Resumen
Social hierarchy is an ubiquitous principle of social organization across animal species. Although some progress has been made in our understanding of how humans infer hierarchical identity, the neuroanatomical basis for perceiving key social dimensions of others remains unexplored. Here, we combined event-related potentials and structural MRI to reveal the neuroanatomical substrates of early status recognition. We designed a covertly simulated hierarchical setting in which participants performed a task either with a superior or with an inferior player. Participants showed higher amplitude in the N170 component when presented with a picture of a superior player compared with an inferior player. Crucially, the magnitude of this effect correlated with brain morphology of the posterior cingulate cortex, superior temporal gyrus, insula, fusiform gyrus, and caudate nucleus. We conclude that early recognition of social hierarchies relies on the structural properties of a network involved in the automatic recognition of social identity. Significance Statement: Humans can perceive social hierarchies very rapidly, an ability that is key for social interactions. However, some individuals are more sensitive to hierarchical information than others. Currently, it is unknown how brain structure supports such fast-paced processes of social hierarchy perception and their individual differences. Here, we addressed this issue for the first time by combining the high temporal resolution of event-related potentials (ERPs) and the high spatial resolution of structural MRI. This methodological approach allowed us to unveil a novel association between ERP neuromarkers of social hierarchy perception and the morphology of several cortical and subcortical brain regions typically assumed to play a role in automatic processes of social cognition. Our results are a step forward in our understanding of the human social brain.