Coupling of respiration and attention via the locus coeruleus: Effects of meditation and pranayama

Michael Christopher Melnychuk; Paul M Dockree; Redmond G O'Connell; Peter R Murphy; Joshua H Balsters; Ian H Robertson

doi:10.1111/psyp.13091

Coupling of respiration and attention via the locus coeruleus: Effects of meditation and pranayama

Standard

Coupling of respiration and attention via the locus coeruleus: Effects of meditation and pranayama. / Melnychuk, Michael Christopher; Dockree, Paul M; O'Connell, Redmond G; Murphy, Peter R; Balsters, Joshua H; Robertson, Ian H.

In: PSYCHOPHYSIOLOGY, Vol. 55, No. 9, 09.2018, p. e13091.

Research output: SCORING: Contribution to journal › SCORING: Journal article › Research › peer-review

Harvard

Melnychuk, MC, Dockree, PM, O'Connell, RG, Murphy, PR, Balsters, JH & Robertson, IH 2018, 'Coupling of respiration and attention via the locus coeruleus: Effects of meditation and pranayama', PSYCHOPHYSIOLOGY, vol. 55, no. 9, pp. e13091. https://doi.org/10.1111/psyp.13091

APA

Melnychuk, M. C., Dockree, P. M., O'Connell, R. G., Murphy, P. R., Balsters, J. H., & Robertson, I. H. (2018). Coupling of respiration and attention via the locus coeruleus: Effects of meditation and pranayama. PSYCHOPHYSIOLOGY, 55(9), e13091. https://doi.org/10.1111/psyp.13091

Vancouver

Melnychuk MC, Dockree PM, O'Connell RG, Murphy PR, Balsters JH, Robertson IH. Coupling of respiration and attention via the locus coeruleus: Effects of meditation and pranayama. PSYCHOPHYSIOLOGY. 2018 Sep;55(9):e13091. https://doi.org/10.1111/psyp.13091

Bibtex

@article{c792a9362a1f44b7b556dd460ca1497e,

title = "Coupling of respiration and attention via the locus coeruleus: Effects of meditation and pranayama",

abstract = "The locus coeruleus (LC) has established functions in both attention and respiration. Good attentional performance requires optimal levels of tonic LC activity, and must be matched to task consistently. LC neurons are chemosensitive, causing respiratory phrenic nerve firing to increase frequency with higher CO2 levels, and as CO2 level varies with the phase of respiration, tonic LC activity should exhibit fluctuations at respiratory frequency. Top-down modulation of tonic LC activity from brain areas involved in attentional regulation, intended to optimize LC firing to suit task requirements, may have respiratory consequences as well, as increases in LC activity influence phrenic nerve firing. We hypothesize that, due to the physiological and functional overlaps of attentional and respiratory functions of the LC, this small neuromodulatory nucleus is ideally situated to act as a mechanism of synchronization between respiratory and attentional systems, giving rise to a low-amplitude oscillation that enables attentional flexibility, but may also contribute to unintended destabilization of attention. Meditative and pranayama practices result in attentional, emotional, and physiological enhancements that may be partially due to the LC's pivotal role as the nexus in this coupled system. We present original findings of synchronization between respiration and LC activity (via fMRI and pupil dilation) and provide evidence of a relationship between respiratory phase modulation and attentional performance. We also present a mathematical dynamical systems model of respiratory-LC-attentional coupling, review candidate neurophysiological mechanisms of changes in coupling dynamics, and discuss implications for attentional theory, meditation, and pranayama, and possible therapeutic applications.",

keywords = "Journal Article",

author = "Melnychuk, {Michael Christopher} and Dockree, {Paul M} and O'Connell, {Redmond G} and Murphy, {Peter R} and Balsters, {Joshua H} and Robertson, {Ian H}",

note = "{\textcopyright} 2018 Society for Psychophysiological Research.",

year = "2018",

month = sep,

doi = "10.1111/psyp.13091",

language = "English",

volume = "55",

pages = "e13091",

journal = "PSYCHOPHYSIOLOGY",

issn = "0048-5772",

publisher = "Wiley-Blackwell",

number = "9",

}

RIS

TY - JOUR

T1 - Coupling of respiration and attention via the locus coeruleus: Effects of meditation and pranayama

AU - Melnychuk, Michael Christopher

AU - Dockree, Paul M

AU - O'Connell, Redmond G

AU - Murphy, Peter R

AU - Balsters, Joshua H

AU - Robertson, Ian H

PY - 2018/9

Y1 - 2018/9

N2 - The locus coeruleus (LC) has established functions in both attention and respiration. Good attentional performance requires optimal levels of tonic LC activity, and must be matched to task consistently. LC neurons are chemosensitive, causing respiratory phrenic nerve firing to increase frequency with higher CO2 levels, and as CO2 level varies with the phase of respiration, tonic LC activity should exhibit fluctuations at respiratory frequency. Top-down modulation of tonic LC activity from brain areas involved in attentional regulation, intended to optimize LC firing to suit task requirements, may have respiratory consequences as well, as increases in LC activity influence phrenic nerve firing. We hypothesize that, due to the physiological and functional overlaps of attentional and respiratory functions of the LC, this small neuromodulatory nucleus is ideally situated to act as a mechanism of synchronization between respiratory and attentional systems, giving rise to a low-amplitude oscillation that enables attentional flexibility, but may also contribute to unintended destabilization of attention. Meditative and pranayama practices result in attentional, emotional, and physiological enhancements that may be partially due to the LC's pivotal role as the nexus in this coupled system. We present original findings of synchronization between respiration and LC activity (via fMRI and pupil dilation) and provide evidence of a relationship between respiratory phase modulation and attentional performance. We also present a mathematical dynamical systems model of respiratory-LC-attentional coupling, review candidate neurophysiological mechanisms of changes in coupling dynamics, and discuss implications for attentional theory, meditation, and pranayama, and possible therapeutic applications.

AB - The locus coeruleus (LC) has established functions in both attention and respiration. Good attentional performance requires optimal levels of tonic LC activity, and must be matched to task consistently. LC neurons are chemosensitive, causing respiratory phrenic nerve firing to increase frequency with higher CO2 levels, and as CO2 level varies with the phase of respiration, tonic LC activity should exhibit fluctuations at respiratory frequency. Top-down modulation of tonic LC activity from brain areas involved in attentional regulation, intended to optimize LC firing to suit task requirements, may have respiratory consequences as well, as increases in LC activity influence phrenic nerve firing. We hypothesize that, due to the physiological and functional overlaps of attentional and respiratory functions of the LC, this small neuromodulatory nucleus is ideally situated to act as a mechanism of synchronization between respiratory and attentional systems, giving rise to a low-amplitude oscillation that enables attentional flexibility, but may also contribute to unintended destabilization of attention. Meditative and pranayama practices result in attentional, emotional, and physiological enhancements that may be partially due to the LC's pivotal role as the nexus in this coupled system. We present original findings of synchronization between respiration and LC activity (via fMRI and pupil dilation) and provide evidence of a relationship between respiratory phase modulation and attentional performance. We also present a mathematical dynamical systems model of respiratory-LC-attentional coupling, review candidate neurophysiological mechanisms of changes in coupling dynamics, and discuss implications for attentional theory, meditation, and pranayama, and possible therapeutic applications.

KW - Journal Article

U2 - 10.1111/psyp.13091

DO - 10.1111/psyp.13091

M3 - SCORING: Journal article

C2 - 29682753

VL - 55

SP - e13091

JO - PSYCHOPHYSIOLOGY

JF - PSYCHOPHYSIOLOGY

SN - 0048-5772

IS - 9

ER -