Interpersonal neural synchrony across levels of interpersonal closeness and social interactivity

Author(s)
Alessandro Carollo, Andrea Bizzego, Verena Schäfer, Carolina Pletti, Stefanie Hoehl, Gianluca Esposito
Abstract

Interpersonal neural synchrony is a fundamental aspect of social interactions, offering insights into the neural mechanisms underlying human connection and developmental outcomes. So far, hyperscanning studies have examined synchrony across different dyads and tasks, leading to inconsistencies in experimental findings and limiting cross-study comparability. This variability has posed challenges for building a unified theoretical framework for neural synchrony. This study investigated the effects of interpersonal closeness and social interactivity on neural synchrony using functional near-infrared spectroscopy hyperscanning. We recorded brain activity from 142 dyads (70 close-friend, 39 romantic-partner, and 33 mother-child dyads) across three interaction conditions: video co-exposure (passive), a cooperative game (structured active), and free interaction (unstructured active). Neural synchrony was computed between participants' bilateral inferior frontal gyrus (IFG) and temporoparietal junction (TPJ) using wavelet transform coherence. Results showed that true dyads exhibited significantly higher synchrony than non-interacting surrogate dyads (qs < 0.001, Cohen's d range: 0.17-0.32), particularly in combinations involving the right IFG. Mother-child dyads displayed lower synchrony than adult-adult dyads at the network (p < 0.001) and local level of analysis, pointing to possible developmental and maturational influences on neural synchrony. At the network level, synchrony was highest during video co-exposure, followed by the cooperative game and free interaction (p < 0.001). However, left IFG-left IFG and left IFG-right TPJ synchrony peaked during the cooperative game. Although these effects were statistically significant, the overall impact of social interactivity on interpersonal neural synchrony was small, suggesting that the complexity and richness of social exchanges alone may only modestly influence neural synchrony in naturalistic contexts. By comparing different types of dyads and interaction contexts, this study highlights factors that may guide future hypothesis-driven hyperscanning research and contribute incremental evidence to ongoing efforts to understand the neural mechanisms underlying human social interactions.

Organisation(s)
Department of Developmental and Educational Psychology
External organisation(s)
Università degli Studi di Trento
Journal
NeuroImage
Volume
322
Pages
121532
ISSN
1053-8119
DOI
https://doi.org/10.1016/j.neuroimage.2025.121532
Publication date
10-2025
Peer reviewed
Yes
Austrian Fields of Science 2012
501005 Developmental psychology
Portal url
https://ucrisportal.univie.ac.at/en/publications/7a94c50d-681c-484b-8dec-fb68984274ce