Hyperscanning neuroimaging technique to reveal the “two-in-one” system in social interactions

[1]  Mikko Sams,et al.  Synchronous brain activity across individuals underlies shared psychological perspectives , 2014, NeuroImage.

[2]  Alec Smith,et al.  Irrational exuberance and neural crash warning signals during endogenous experimental market bubbles , 2014, Proceedings of the National Academy of Sciences.

[3]  L. Astolfi,et al.  Social neuroscience and hyperscanning techniques: Past, present and future , 2014, Neuroscience & Biobehavioral Reviews.

[4]  Matthew Pelowski,et al.  Clarifying the interaction types in two-person neuroscience research , 2014, Front. Hum. Neurosci..

[5]  M. Osaka,et al.  Neural Synchronization During Cooperated Humming: A Hyperscanning Study Using fNIRS☆ , 2014 .

[6]  Kazuyuki Aihara,et al.  Spatio-Temporal Dynamics in Collective Frog Choruses Examined by Mathematical Modeling and Field Observations , 2014, Scientific Reports.

[7]  Cornelius Weiller,et al.  Interindividual synchronization of brain activity during live verbal communication , 2014, Behavioural Brain Research.

[8]  Lars Kai Hansen,et al.  The Smartphone Brain Scanner: A Portable Real-Time Neuroimaging System , 2013, PloS one.

[9]  N. Sadato,et al.  The anterior insular and anterior cingulate cortices in emotional processing for self-face recognition , 2013, Social cognitive and affective neuroscience.

[10]  Guerra-Carrillo,et al.  Resting-State fMRI: A Window into Human Brain Plasticity , 2014 .

[11]  F. Scholkmann,et al.  A new methodical approach in neuroscience: assessing inter-personal brain coupling using functional near-infrared imaging (fNIRI) hyperscanning , 2013, Front. Hum. Neurosci..

[12]  L. Nummenmaa,et al.  The brains of high functioning autistic individuals do not synchronize with those of others☆ , 2013, NeuroImage: Clinical.

[13]  A. Burgess On the interpretation of synchronization in EEG hyperscanning studies: a cautionary note , 2013, Front. Hum. Neurosci..

[14]  Viktor Müller,et al.  Intra- and Inter-Brain Synchronization during Musical Improvisation on the Guitar , 2013, PloS one.

[15]  S. Kotz,et al.  How relevant is social interaction in second language learning? , 2013, Front. Hum. Neurosci..

[16]  Tom Froese,et al.  From synthetic modeling of social interaction to dynamic theories of brain–body–environment–body–brain systems , 2013, Behavioral and Brain Sciences.

[17]  K. Vogeley,et al.  Toward a second-person neuroscience 1 , 2013, Behavioral and Brain Sciences.

[18]  Katsumi Watanabe Teaching as a Dynamic Phenomenon with Interpersonal Interactions , 2013 .

[19]  Y. Yamaguchi,et al.  Inter-brain synchronization during coordination of speech rhythm in human-to-human social interaction , 2013, Scientific Reports.

[20]  C. Frith,et al.  Social cognition in the we-mode , 2013, Trends in Cognitive Sciences.

[21]  Viktor Müller,et al.  Directionality in hyperbrain networks discriminates between leaders and followers in guitar duets , 2013, Front. Hum. Neurosci..

[22]  Lauri Parkkonen,et al.  Synchrony of brains and bodies during implicit interpersonal interaction , 2013, Trends in Cognitive Sciences.

[23]  S. Shimojo,et al.  Interpersonal body and neural synchronization as a marker of implicit social interaction , 2012, Scientific Reports.

[24]  Chaozhe Zhu,et al.  Neural Synchronization during Face-to-Face Communication , 2012, The Journal of Neuroscience.

[25]  Martin Wolf,et al.  Between-brain connectivity during imitation measured by fNIRS , 2012, NeuroImage.

[26]  F. Scholkmann,et al.  Between-brain coherence during joint n-back task performance: A two-person functional near-infrared spectroscopy study , 2012, Behavioural Brain Research.

[27]  Masamichi J. Hayashi,et al.  Hard to “tune in”: neural mechanisms of live face-to-face interaction with high-functioning autistic spectrum disorder , 2012, Front. Hum. Neurosci..

[28]  Alan Gevins,et al.  Towards Measuring Brain Function on Groups of People in the Real World , 2012, PloS one.

[29]  H. Lüders,et al.  EEG source imaging in epilepsy—practicalities and pitfalls , 2012, Nature Reviews Neurology.

[30]  A. Roepstorff,et al.  The two-brain approach: how can mutually interacting brains teach us something about social interaction? , 2012, Front. Hum. Neurosci..

[31]  Viktor Müller,et al.  Intra- and interbrain synchronization and network properties when playing guitar in duets , 2012, Front. Hum. Neurosci..

[32]  J. Haidt,et al.  Neural Basis of Moral Elevation Demonstrated through Inter-Subject Synchronization of Cortical Activity during Free-Viewing , 2012, PloS one.

[33]  C. Elger,et al.  Neural responses to advantageous and disadvantageous inequity , 2012, Front. Hum. Neurosci..

[34]  Heidrun Wabnitz,et al.  The physiological origin of task-evoked systemic artefacts in functional near infrared spectroscopy , 2012, NeuroImage.

[35]  Jacqueline Nadel,et al.  Anatomical Connectivity Influences both Intra- and Inter-Brain Synchronizations , 2012, PloS one.

[36]  René J. Huster,et al.  Methods for Simultaneous EEG-fMRI: An Introductory Review , 2012, The Journal of Neuroscience.

[37]  Pamela Baess,et al.  MEG dual scanning: a procedure to study real-time auditory interaction between two persons , 2012, Front. Hum. Neurosci..

[38]  Steven M. Platek,et al.  Working Together May Be Better: Activation of Reward Centers during a Cooperative Maze Task , 2012, PloS one.

[39]  S. Garrod,et al.  Brain-to-brain coupling: a mechanism for creating and sharing a social world , 2012, Trends in Cognitive Sciences.

[40]  Xu Cui,et al.  NIRS-based hyperscanning reveals increased interpersonal coherence in superior frontal cortex during cooperation , 2012, NeuroImage.

[41]  Girijesh Prasad,et al.  Electrophysiological signatures of intentional social coordination in the 10–12Hz range , 2012, NeuroImage.

[42]  Viktor Müller,et al.  Interactive brains, social minds , 2011, Communicative & integrative biology.

[43]  Laura Astolfi,et al.  Imaging the Social Brain by Simultaneous Hyperscanning during Subject Interaction , 2011, IEEE Intelligent Systems.

[44]  K. Kubota,et al.  Synchronous activity of two people's prefrontal cortices during a cooperative task measured by simultaneous near-infrared spectroscopy. , 2011, Journal of biomedical optics.

[45]  Christo Pantev,et al.  Multimodal imaging of functional networks and event-related potentials in performance monitoring , 2011, NeuroImage.

[46]  Guillaume Dumas,et al.  Towards a two-body neuroscience , 2011, Communicative & integrative biology.

[47]  Margot J. Taylor,et al.  Review of neuroimaging in autism spectrum disorders: what have we learned and where we go from here , 2011, Molecular autism.

[48]  R. Oostenveld,et al.  Neuronal Dynamics Underlying High- and Low-Frequency EEG Oscillations Contribute Independently to the Human BOLD Signal , 2011, Neuron.

[49]  Laura Astolfi,et al.  Defecting or Not Defecting: How to “Read” Human Behavior during Cooperative Games by EEG Measurements , 2010, PloS one.

[50]  Masamichi J. Hayashi,et al.  “Stay Tuned”: Inter-Individual Neural Synchronization During Mutual Gaze and Joint Attention , 2010, Front. Integr. Neurosci..

[51]  Line Garnero,et al.  Inter-Brain Synchronization during Social Interaction , 2010, PloS one.

[52]  F. Cincotti,et al.  Neuroelectrical Hyperscanning Measures Simultaneous Brain Activity in Humans , 2010, Brain Topography.

[53]  S. Pinker The cognitive niche: Coevolution of intelligence, sociality, and language , 2010, Proceedings of the National Academy of Sciences.

[54]  Steen Moeller,et al.  Multiband multislice GE‐EPI at 7 tesla, with 16‐fold acceleration using partial parallel imaging with application to high spatial and temporal whole‐brain fMRI , 2010, Magnetic resonance in medicine.

[55]  L. Shah,et al.  Functional magnetic resonance imaging. , 2010, Seminars in roentgenology.

[56]  J. Culver,et al.  Brain Specificity of Diffuse Optical Imaging: Improvements from Superficial Signal Regression and Tomography , 2010, Front. Neuroenerg..

[57]  R. Hari,et al.  Brain basis of human social interaction: from concepts to brain imaging. , 2009, Physiological reviews.

[58]  Robert Oostenveld,et al.  Trial-by-trial coupling between EEG and BOLD identifies networks related to alpha and theta EEG power increases during working memory maintenance , 2009, NeuroImage.

[59]  Shu-Chen Li,et al.  Brains swinging in concert: cortical phase synchronization while playing guitar , 2009, BMC Neuroscience.

[60]  Bart Vanrumste,et al.  Journal of Neuroengineering and Rehabilitation Open Access Review on Solving the Inverse Problem in Eeg Source Analysis , 2022 .

[61]  Lester Melie-García,et al.  Characterizing brain anatomical connections using diffusion weighted MRI and graph theory , 2007, NeuroImage.

[62]  J. Kelso,et al.  From the Cover : The phi complex as a neuromarker of human social coordination , 2007 .

[63]  Abraham Z. Snyder,et al.  A method for using blocked and event-related fMRI data to study “resting state” functional connectivity , 2007, NeuroImage.

[64]  Mark H Johnson,et al.  The development of the social brain in human infancy , 2007, The European journal of neuroscience.

[65]  Yul-Wan Sung,et al.  Functional magnetic resonance imaging , 2004, Scholarpedia.

[66]  Olaf Sporns,et al.  The small world of the cerebral cortex , 2007, Neuroinformatics.

[67]  Neuroscience Research , 2006, Neuroscience Research.

[68]  Vince D. Calhoun,et al.  Neuronal chronometry of target detection: Fusion of hemodynamic and event-related potential data , 2005, NeuroImage.

[69]  Daniel Stahl,et al.  Sensitivity to interpersonal timing at 3 and 6 months of age , 2006 .

[70]  A. Engel,et al.  Trial-by-Trial Coupling of Concurrent Electroencephalogram and Functional Magnetic Resonance Imaging Identifies the Dynamics of Performance Monitoring , 2005, The Journal of Neuroscience.

[71]  Yoko Yamaguchi,et al.  Long-range EEG phase synchronization during an arithmetic task indexes a coherent cortical network simultaneously measured by fMRI , 2005, NeuroImage.

[72]  Mark H Johnson,et al.  The emergence of the social brain network: Evidence from typical and atypical development , 2005, Development and Psychopathology.

[73]  S. Quartz,et al.  Getting to Know You: Reputation and Trust in a Two-Person Economic Exchange , 2005, Science.

[74]  Uta Frith,et al.  Theory of mind , 2001, Current Biology.

[75]  D. Perrett,et al.  Opinion TRENDS in Cognitive Sciences Vol.8 No.11 November 2004 Demystifying social cognition: a Hebbian perspective , 2022 .

[76]  R. Malach,et al.  Intersubject Synchronization of Cortical Activity During Natural Vision , 2004, Science.

[77]  Andreas Kleinschmidt,et al.  EEG-correlated fMRI of human alpha activity , 2003, NeuroImage.

[78]  P. Kuhl,et al.  Foreign-language experience in infancy: Effects of short-term exposure and social interaction on phonetic learning , 2003, Proceedings of the National Academy of Sciences of the United States of America.

[79]  K. Doya,et al.  A unifying computational framework for motor control and social interaction. , 2003, Philosophical transactions of the Royal Society of London. Series B, Biological sciences.

[80]  J. Grafman,et al.  Human prefrontal cortex: processing and representational perspectives , 2003, Nature Reviews Neuroscience.

[81]  C. Frith,et al.  Functional imaging of ‘theory of mind’ , 2003, Trends in Cognitive Sciences.

[82]  Mukesh Dhamala,et al.  Hyperscanning : Simultaneous fMRI during Linked Social Interactions , 2001 .

[83]  Uta Frith,et al.  The Biological Basis of Social Interaction , 2001 .

[84]  V. Haughton,et al.  Frequencies contributing to functional connectivity in the cerebral cortex in "resting-state" data. , 2001, AJNR. American journal of neuroradiology.

[85]  T. Field Massage Therapy Facilitates Weight Gain in Preterm Infants , 2001 .

[86]  T. Allison,et al.  Social perception from visual cues: role of the STS region , 2000, Trends in Cognitive Sciences.

[87]  R. Beer Dynamical approaches to cognitive science , 2000, Trends in Cognitive Sciences.

[88]  M. Gazzaniga,et al.  Combined spatial and temporal imaging of brain activity during visual selective attention in humans , 1994, Nature.

[89]  D. Lehmann,et al.  Low resolution electromagnetic tomography: a new method for localizing electrical activity in the brain. , 1994, International journal of psychophysiology : official journal of the International Organization of Psychophysiology.

[90]  B. Ermentrout,et al.  An adaptive model for synchrony in the firefly Pteroptyx malaccae , 1991 .

[91]  J. Buck Synchronous Rhythmic Flashing of Fireflies. II. , 1938, The Quarterly Review of Biology.

[92]  Yoshiki Kuramoto,et al.  Self-entrainment of a population of coupled non-linear oscillators , 1975 .

[93]  T. D. Duane,et al.  Extrasensory Electroencephalographic Induction between Identical Twins , 1965, Science.