Cardiac and Respiratory Patterns Synchronize between Persons during Choir Singing

Dyadic and collective activities requiring temporally coordinated action are likely to be associated with cardiac and respiratory patterns that synchronize within and between people. However, the extent and functional significance of cardiac and respiratory between-person couplings have not been investigated thus far. Here, we report interpersonal oscillatory couplings among eleven singers and one conductor engaged in choir singing. We find that: (a) phase synchronization both in respiration and heart rate variability increase significantly during singing relative to a rest condition; (b) phase synchronization is higher when singing in unison than when singing pieces with multiple voice parts; (c) directed coupling measures are consistent with the presence of causal effects of the conductor on the singers at high modulation frequencies; (d) the different voices of the choir are reflected in network analyses of cardiac and respiratory activity based on graph theory. Our results suggest that oscillatory coupling of cardiac and respiratory patterns provide a physiological basis for interpersonal action coordination.

[1]  Olaf Sporns,et al.  Complex network measures of brain connectivity: Uses and interpretations , 2010, NeuroImage.

[2]  J. Kurths,et al.  Influence of paced maternal breathing on fetal–maternal heart rate coordination , 2009, Proceedings of the National Academy of Sciences.

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

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

[5]  Edward T. Bullmore,et al.  Broadband Criticality of Human Brain Network Synchronization , 2009, PLoS Comput. Biol..

[6]  M. Newman,et al.  Hierarchical structure and the prediction of missing links in networks , 2008, Nature.

[7]  David N. Towers,et al.  The many metrics of cardiac chronotropy: A pragmatic primer and a brief comparison of metrics , 2007, Biological Psychology.

[8]  P. Grossman,et al.  Toward understanding respiratory sinus arrhythmia: Relations to cardiac vagal tone, evolution and biobehavioral functions , 2007, Biological Psychology.

[9]  Régine Le Bouquin-Jeannès,et al.  Linear and nonlinear causality between signals: methods, examples and neurophysiological applications , 2006, Biological Cybernetics.

[10]  M. Newman,et al.  Finding community structure in networks using the eigenvectors of matrices. , 2006, Physical review. E, Statistical, nonlinear, and soft matter physics.

[11]  M E J Newman,et al.  Modularity and community structure in networks. , 2006, Proceedings of the National Academy of Sciences of the United States of America.

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

[13]  R. Guimerà,et al.  Functional cartography of complex metabolic networks , 2005, Nature.

[14]  H. Lackner,et al.  Oscillations of heart rate and respiration synchronize during poetry recitation. , 2004, American journal of physiology. Heart and circulatory physiology.

[15]  S. Bressler,et al.  Beta oscillations in a large-scale sensorimotor cortical network: directional influences revealed by Granger causality. , 2004, Proceedings of the National Academy of Sciences of the United States of America.

[16]  F. Yasuma,et al.  Respiratory sinus arrhythmia: why does the heartbeat synchronize with respiratory rhythm? , 2004, Chest.

[17]  P. Larsen,et al.  Cardioventilatory Coupling in Resting Human Subjects , 2003, Experimental physiology.

[18]  W. Hesse,et al.  The use of time-variant EEG Granger causality for inspecting directed interdependencies of neural assemblies , 2003, Journal of Neuroscience Methods.

[19]  Dirk Cysarz,et al.  Effects of speech therapy with poetry on heart rate rhythmicity and cardiorespiratory coordination. , 2002, International journal of cardiology.

[20]  L. Glass Synchronization and rhythmic processes in physiology , 2001, Nature.

[21]  R. I. Kitney,et al.  Transient phase locking patterns among respiration, heart rate and blood pressure during cardiorespiratory synchronisation in humans , 2000, Medical and Biological Engineering and Computing.

[22]  J. Kurths,et al.  Heartbeat synchronized with ventilation , 1998, Nature.

[23]  A. Malliani,et al.  Heart rate variability. Standards of measurement, physiological interpretation, and clinical use , 1996 .

[24]  M. Bonsignore,et al.  Respiratory sinus arrhythmia during obstructive sleep apnoeas in humans , 1995, Journal of sleep research.

[25]  C. Granger Investigating causal relations by econometric models and cross-spectral methods , 1969 .

[26]  T. Theorell,et al.  Heart Rate Variability During Singing and Flute Playing , 2010 .

[27]  L. Hansson,et al.  Does singing promote well-being?: An empirical study of professional and amateur singers during a singing lesson , 2003, Integrative physiological and behavioral science : the official journal of the Pavlovian Society.

[28]  D. Adam,et al.  Assessment of autonomic function in humans by heart rate spectral analysis. , 1985, The American journal of physiology.

[29]  L. K. Tripathi,et al.  Respiration And Heart Rate Variability : A Review With Special Reference To Its Application In Aerospace Medicine , 2022 .