Spontaneous Brain Activity Predicts Task-Evoked Activity During Animate Versus Inanimate Touch

Overview

Journal Cereb Cortex

Publisher Oxford University Press

Specialty Neurology

Date 2019 Jan 23

PMID 30668664

Citations 17

Authors

Andrea Scalabrini

Sjoerd J H Ebisch

Zirui Huang

Simone Di Plinio

Mauro Gianni Perrucci

Gian Luca Romani

Clara Mucci

Georg Northoff

Affiliations

Soon will be listed here.

Abstract

The spontaneous activity of the brain is characterized by an elaborate temporal structure with scale-free properties as indexed by the power law exponent (PLE). We test the hypothesis that spontaneous brain activity modulates task-evoked activity during interactions with animate versus inanimate stimuli. For this purpose, we developed a paradigm requiring participants to actively touch either animate (real hand) or inanimate (mannequin hand) stimuli. Behaviorally, participants perceived the animate target as closer in space, temporally more synchronous with their own self, and more personally relevant, compared with the inanimate. Neuronally, we observed a modulation of task-evoked activity by animate versus inanimate interactions in posterior insula, in medial prefrontal cortex, comprising anterior cingulate cortex, and in medial superior frontal gyrus. Among these regions, an increased functional connectivity was shown between posterior insula and perigenual anterior cingulate cortex (PACC) during animate compared with inanimate interactions and during resting state. Importantly, PLE during spontaneous brain activity in PACC correlated positively with PACC task-evoked activity during animate versus inanimate stimuli. In conclusion, we demonstrate that brain spontaneous activity in PACC can be related to the distinction between animate and inanimate stimuli and thus might be specifically tuned to align our brain with its animate environment.

Citing Articles

Therapeutic touch and therapeutic alliance in pediatric care and neonatology: An active inference framework.

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Scale-free dynamics of core-periphery topography.

Klar P, Catal Y, Langner R, Huang Z, Northoff G Hum Brain Mapp. 2022; 44(5):1997-2017.

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The nested hierarchy of self and its trauma: In search for a synchronic dynamic and topographical re-organization.

Scalabrini A, Mucci C, Northoff G Front Hum Neurosci. 2022; 16:980353.

PMID: 36118976 PMC: 9478193. DOI: 10.3389/fnhum.2022.980353.

Therapeutic Alliance as Active Inference: The Role of Therapeutic Touch and Biobehavioural Synchrony in Musculoskeletal Care.

McParlin Z, Cerritelli F, Rossettini G, Friston K, Esteves J Front Behav Neurosci. 2022; 16:897247.

PMID: 35846789 PMC: 9280207. DOI: 10.3389/fnbeh.2022.897247.

Sensory processing sensitivity and somatosensory brain activation when feeling touch.

Schaefer M, Kuhnel A, Gartner M Sci Rep. 2022; 12(1):12024.

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