Brain-to-Brain Synchrony during Naturalistic Social Interactions

Kinreich, Sivan; Djalovski, Amir; Kraus, Lior; Louzoun, Yoram; Feldman, Ruth

doi:10.1038/s41598-017-17339-5

Cited by 301 publications

(274 citation statements)

References 73 publications

(77 reference statements)

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“…Unfortunately, the portable fNIRS device used in this study allowed the measurement of only the regions covered by hairless scalp skin. Future studies using a device that provides wider coverage of regions, especially the language-related and additional social-related regions, such as the inferior frontal gyrus and temporo-parietal regions focused on in previous IBS studies 30,69,31,70,36,46 A specific avenue that warrants being pursued further would be the role of metacognition of the physical synchrony in the subsequent communication. As…”

Section: Discussionmentioning

confidence: 99%

Prior physical synchrony enhances rapport and inter-brain synchronization during subsequent educational communication

Nozawa

Sakaki

Ikeda

et al. 2019

Preprint

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Physical synchrony has been suggested to have positive effects on not only concurrent but also subsequent communication, but the underlying neural processes are unclear.Using functional near-infrared spectroscopy (fNIRS) hyperscanning, we tested the effects of preceding physical synchrony on subsequent dyadic teaching-learning communication. Thirty-two pairs of participants performed two experimental sessions.In each session, they underwent a rhythmic arm movement block with synchronous or asynchronous conditions, and then taught/learned unknown words to/from each other according to a given scenario. Neural activities in their medial and left lateral prefrontal cortex (PFC) were measured and inter-brain synchronization (IBS) during the teachinglearning blocks was evaluated. Participants rated their subjective rapport during the teaching-learning blocks, and took a word memory test. The analyses revealed that (1) prior physical synchrony enhanced teacher-learner rapport; (2) prior physical synchrony also enhanced IBS in the lateral PFC; and (3) IBS changes correlated positively with rapport changes. Physical synchrony did however not affect word memory performance.These results suggest that IBS can be useful to measure the effects of social-bonding facilitation activities for educational communication.

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Section: Discussionmentioning

confidence: 99%

Prior physical synchrony enhances rapport and inter-brain synchronization during subsequent educational communication

Nozawa

Sakaki

Ikeda

et al. 2019

Preprint

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“…Using ecological paradigm and hyperscanning techniques, we found brain‐to‐brain coupling of gamma rhythms between both mothers and children 118 and romantic partners 198 during moments of behavioral synchrony. Gamma rhythms have been shown in both animal 199,200 and human 201,202 studies to index brain maturity, highlighting the role of synchrony in fine‐tuning this maturity.…”

Section: Synchrony From Infancy To Adulthood: the Unfolding Of Resilimentioning

confidence: 99%

What is resilience: an affiliative neuroscience approach

2020

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Resilience – a key topic in clinical science and practice – still lacks a clear conceptualization that integrates its evolutionary and human‐specific features, refrains from exclusive focus on fear physiology, incorporates a developmental approach, and, most importantly, is not based on the negation (i.e., absence of symptoms following trauma). Building on the initial condition of mammals, whose brain matures in the context of the mother's body and caregiving behavior, we argue that systems and processes that participate in tuning the brain to the social ecology and adapting to its hardships mark the construct of resilience. These include the oxytocin system, the affiliative brain, and biobehavioral synchrony, all characterized by great flexibility across phylogenesis and ontogenesis. Three core features of resilience are outlined: plasticity, sociality and meaning. Mechanisms of sociality by which coordinated action supports diversity, endurance and adaptation are described across animal evolution. Humans' biobehavioral synchrony matures from maternal attuned behavior in the postpartum to adult‐adult relationships of empathy, perspective‐taking and intimacy, and extends from the mother‐child relationship to other affiliative bonds throughout life, charting a fundamental trajectory in the development of resilience. Findings from three high‐risk cohorts, each tapping a distinct disruption to maternal‐infant bonding (prematurity, maternal depression, and early life stress/trauma), and followed from birth to adolescence/young adulthood, demonstrate how components of the neurobiology of affiliation confer resilience and uniquely shape the social brain.

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“…Temporal patterns in the brain are suggested to be impacted by interoceptive processes, which provide the foundation for the sense of self based on representations of bodily signals that form predictions ("priors") based on repeated experiences to enable the perception and attribution of meaning to incoming information (Allen and Tsakiris, 2018;Park et al, 2016;Salomon et al, 2016;Seth, 2013). Insular and temporal cortices are central to the brain's perception of temporal regularities Schirmer et al, 2016;Wittmann, 2013) and have been implicated in brain-to-brain synchrony during social interactions (Anders et al, 2011;Hasson et al, 2004;Kinreich et al, 2017;Nummenmaa et al, 2012). As an open-ended research question, we thus explored whether, when mother's brain is repeatedly imaged, insular and temporal cortices would show a consistent pattern of activation, a temporal engram to attachment stimuli.…”

Section: Introductionmentioning

confidence: 99%

Mother Brain is Wired for Social Moments

Shimon-Raz

Salomon

Bloch

et al. 2020

Preprint

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Reorganization of the maternal brain, primed by oxytocin surge during childbirth, triggers the species-typical maternal social behavior. These brief social moments carry profound effects on the infant's social brain and likely have a distinct signature in the maternal brain. Utilizing a doubleblind, oxytocin/placebo administration crossover design, we imaged mothers twice while observing three naturalistic maternal-infant contexts in the home ecology; "unavailable", "unresponsive", and "social", when mothers engaged in synchronous pick-a-boo play. We found four processes by which mother's brain registers social moments. Salience -social moments increased activations throughout the maternal brain network; Brain-behavior coupling -caregiving behavior linked with sociallydriven neural response; Oxytocin sensitivityadministration impacted neural response mainly to the social context; and Temporal engrams-consistent temporal patterns in insula and TP characterized response to social play. Findings describe how mother's brain compiles and amplifies these precious social moments to generate dyad-specific brain-behavior patterns that initiate the cross-generational transmission of human sociality.

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Brain-to-Brain Synchrony during Naturalistic Social Interactions

Cited by 301 publications

References 73 publications

Prior physical synchrony enhances rapport and inter-brain synchronization during subsequent educational communication

Prior physical synchrony enhances rapport and inter-brain synchronization during subsequent educational communication

What is resilience: an affiliative neuroscience approach

Mother Brain is Wired for Social Moments

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