Studying parent-child interaction with hyperscanning

Trinh Nguyen (Corresponding author), Anna Bánki, Gabriela Markova, Stefanie Hoehl

Publications: Contribution to bookChapterPeer Reviewed

Abstract

Recent research suggests that parent-child interactions influence children's brain development, both in terms of structure and function. However, the neurobiological processes underlying this association have yet to be explored. In the present chapter, we will introduce “hyperscanning” as an upcoming approach to study social interactions between parent and child. We suggest that hyperscanning is especially suitable to examine interpersonal dynamics, such as neural entrainment to communicative signals and interpersonal synchronization of brain activities. Despite the manifold potentials of hyperscanning, the growing field is still facing various challenges, including methodological limitations, which we will also address in this chapter. We will then illustrate how the insights gained so far from hyperscanning studies assessing parent-child interactions can inform research on the development of early social cognition, including social impairments. Hyperscanning has the potential to deepen our understanding of how parent-child interactions can support healthy child development.
Original languageEnglish
Title of host publicationNew Perspectives on Early Social-cognitive Development
EditorsMarlene Meyer, Sabine Hunnius
Place of PublicationAmsterdam
PublisherElsevier
Pages1-24
Number of pages24
ISBN (Electronic)978-0-12-820517-4
ISBN (Print)9780128205167
DOIs
Publication statusPublished - 10 Jun 2020

Publication series

SeriesProgress in Brain Research
Volume254
ISSN0079-6123

Austrian Fields of Science 2012

  • 501014 Neuropsychology
  • 501005 Developmental psychology

Keywords

  • Social interaction
  • hyperscanning
  • Communicative rhythms
  • Neural entrainment
  • Social cognition
  • Neural synchrony
  • MOTHER
  • INFORMATION-FLOW
  • SIGNALS
  • RISK
  • FULL-TERM
  • Hyperscanning
  • JOINT ATTENTION
  • NEURAL MECHANISMS
  • INFANT SYNCHRONY
  • BRAIN
  • FMRI

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