No evidence for a relationship between social closeness and similarity in resting-state functional brain connectivity in schoolchildren

Carolyn Beth Mcnabb,Nancy Mulligan,Amy Fancourt,Kou Murayama,Laura Grace Burgess,Patricia Riddell,Lily Fitzgibbon

doi:10.1038/s41598-020-67718-8

Carolyn Beth Mcnabb, Nancy Mulligan + Show 5 more

Open Access

https://doi.org/10.1038/s41598-020-67718-8

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Abstract

Previous research suggests that the proximity of individuals in a social network predicts how similarly their brains respond to naturalistic stimuli. However, the relationship between social connectedness and brain connectivity in the absence of external stimuli has not been examined. To investigate whether neural homophily between friends exists at rest we collected resting-state functional magnetic resonance imaging (fMRI) data from 68 school-aged girls, along with social network information from all pupils in their year groups (total 5,066 social dyads). Participants were asked to rate the amount of time they voluntarily spent with each person in their year group, and directed social network matrices and community structure were then determined from these data. No statistically significant relationships between social distance, community homogeneity and similarity of global-level resting-state connectivity were observed. Nor were we able to predict social distance using a regularised regression technique (i.e. elastic net regression based on the local-level similarities in resting-state whole-brain connectivity between participants). Although neural homophily between friends exists when viewing naturalistic stimuli, this finding did not extend to functional connectivity at rest in our population. Instead, resting-state connectivity may be less susceptible to the influences of a person's social environment.

Highlights

Previous research suggests that the proximity of individuals in a social network predicts how their brains respond to naturalistic stimuli
Participants provided information about their social ties in their own year group. This resulted in 5,066 dyads in the social network study and 767 dyads in the functional magnetic resonance imaging (fMRI) study
FMRI cohorts were relatively well matched to full year group cohorts for demographic characteristics

Summary

Introduction

Previous research suggests that the proximity of individuals in a social network predicts how their brains respond to naturalistic stimuli. Neural responses observed during unconstrained viewing of naturalistic stimuli (movie clips) were found to be significantly more similar among friends compared with those farther removed in a real-world social network[8]. This effect persisted, even after controlling for inter-subject similarities in demographic variables, such as age, gender, nationality and ethnicity. Evaluates the externally generated (extrinsic) stimulus-locked BOLD activation associated with the task but ignores the internally generated (intrinsic) component of BOLD activity, which is cancelled out when correlating across participants[10] It remains unclear whether internally-generated brain activity exhibits neural homophily between friends

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