Hyperscanning: Simultaneous fMRI during linked social interactions

P. Read Montague; Gregory S. Berns; Jonathan D. Cohen; Samuel M. McClure; Giuseppe Pagnoni; Mukesh Dhamala; Michael C. Wiest; Igor Karpov; Richard D. King; Nathan Apple; Ronald E. Fisher

doi:10.1006/nimg.2002.1150

Hyperscanning: Simultaneous fMRI during linked social interactions

P. Read Montague, Gregory S. Berns, Jonathan D. Cohen, Samuel M. McClure, Giuseppe Pagnoni, Mukesh Dhamala, Michael C. Wiest, Igor Karpov, Richard D. King, Nathan Apple, Ronald E. Fisher

Research output: Contribution to journal › Editorial › peer-review

502 Scopus citations

Abstract

A new methodology for the measurement of the neural substrates of human social interaction is described. This technology, termed "Hyperscan," embodies both the hardware and the software necessary to link magnetic resonance scanners through the internet. Hyperscanning allows for the performance of human behavioral experiments in which participants can interact with each other while functional MRI is acquired in synchrony with the behavioral interactions. Data are presented from a simple game of deception between pairs of subjects. Because people may interact both asymmetrically and asynchronously, both the design and the analysis must accommodate this added complexity. Several potential approaches are described.

Original language	English (US)
Pages (from-to)	1159-1164
Number of pages	6
Journal	NeuroImage
Volume	16
Issue number	4
DOIs	https://doi.org/10.1006/nimg.2002.1150
State	Published - Aug 2002
Externally published	Yes

ASJC Scopus subject areas

Neurology
Cognitive Neuroscience

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title = "Hyperscanning: Simultaneous fMRI during linked social interactions",

abstract = "A new methodology for the measurement of the neural substrates of human social interaction is described. This technology, termed {"}Hyperscan,{"} embodies both the hardware and the software necessary to link magnetic resonance scanners through the internet. Hyperscanning allows for the performance of human behavioral experiments in which participants can interact with each other while functional MRI is acquired in synchrony with the behavioral interactions. Data are presented from a simple game of deception between pairs of subjects. Because people may interact both asymmetrically and asynchronously, both the design and the analysis must accommodate this added complexity. Several potential approaches are described.",

author = "Montague, {P. Read} and Berns, {Gregory S.} and Cohen, {Jonathan D.} and McClure, {Samuel M.} and Giuseppe Pagnoni and Mukesh Dhamala and Wiest, {Michael C.} and Igor Karpov and King, {Richard D.} and Nathan Apple and Fisher, {Ronald E.}",

note = "Funding Information: The Hyperscan Development Group at Baylor College of Medicine (www.hnlsource.org) and the Hyperscan consortium (www. hyperscan.org) give special acknowledgement to the Kane Family Foundation (P.R.M.) for their unflagging support of the initial stages of this work. We acknowledge both the expertise and the commitment of all those who have contributed to the Hyperscan-ning Project. Various parts of this work have been supported by NIDA (G.S.B.: DA00367 and DA14883; P.R.M.: DA11723) and NIMH (P.R.M.: MH52797; G.S.B.: MH61010).",

year = "2002",

month = aug,

doi = "10.1006/nimg.2002.1150",

language = "English (US)",

volume = "16",

pages = "1159--1164",

journal = "NeuroImage",

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T2 - Simultaneous fMRI during linked social interactions

AU - Montague, P. Read

AU - Berns, Gregory S.

AU - Cohen, Jonathan D.

AU - McClure, Samuel M.

AU - Pagnoni, Giuseppe

AU - Dhamala, Mukesh

AU - Wiest, Michael C.

AU - Karpov, Igor

AU - King, Richard D.

AU - Apple, Nathan

AU - Fisher, Ronald E.

N1 - Funding Information: The Hyperscan Development Group at Baylor College of Medicine (www.hnlsource.org) and the Hyperscan consortium (www. hyperscan.org) give special acknowledgement to the Kane Family Foundation (P.R.M.) for their unflagging support of the initial stages of this work. We acknowledge both the expertise and the commitment of all those who have contributed to the Hyperscan-ning Project. Various parts of this work have been supported by NIDA (G.S.B.: DA00367 and DA14883; P.R.M.: DA11723) and NIMH (P.R.M.: MH52797; G.S.B.: MH61010).

PY - 2002/8

Y1 - 2002/8

N2 - A new methodology for the measurement of the neural substrates of human social interaction is described. This technology, termed "Hyperscan," embodies both the hardware and the software necessary to link magnetic resonance scanners through the internet. Hyperscanning allows for the performance of human behavioral experiments in which participants can interact with each other while functional MRI is acquired in synchrony with the behavioral interactions. Data are presented from a simple game of deception between pairs of subjects. Because people may interact both asymmetrically and asynchronously, both the design and the analysis must accommodate this added complexity. Several potential approaches are described.

AB - A new methodology for the measurement of the neural substrates of human social interaction is described. This technology, termed "Hyperscan," embodies both the hardware and the software necessary to link magnetic resonance scanners through the internet. Hyperscanning allows for the performance of human behavioral experiments in which participants can interact with each other while functional MRI is acquired in synchrony with the behavioral interactions. Data are presented from a simple game of deception between pairs of subjects. Because people may interact both asymmetrically and asynchronously, both the design and the analysis must accommodate this added complexity. Several potential approaches are described.

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Hyperscanning: Simultaneous fMRI during linked social interactions

Abstract

ASJC Scopus subject areas

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