Translational neurocardiology: preclinical models and cardioneural integrative aspects

J. L. Ardell; M. C. Andresen; J. A. Armour; G. E. Billman; P. S. Chen; R. D. Foreman; N. Herring; D. S. O'Leary; H. N. Sabbah; H. D. Schultz; K. Sunagawa; I. H. Zucker

doi:10.1113/JP271869

Translational neurocardiology: preclinical models and cardioneural integrative aspects

J. L. Ardell, M. C. Andresen, J. A. Armour, G. E. Billman, P. S. Chen, R. D. Foreman, N. Herring, D. S. O'Leary, H. N. Sabbah, H. D. Schultz, K. Sunagawa, I. H. Zucker

Physiology & Pharmacology

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

116 Scopus citations

Abstract

Abstract: Neuronal elements distributed throughout the cardiac nervous system, from the level of the insular cortex to the intrinsic cardiac nervous system, are in constant communication with one another to ensure that cardiac output matches the dynamic process of regional blood flow demand. Neural elements in their various ‘levels’ become differentially recruited in the transduction of sensory inputs arising from the heart, major vessels, other visceral organs and somatic structures to optimize neuronal coordination of regional cardiac function. This White Paper will review the relevant aspects of the structural and functional organization for autonomic control of the heart in normal conditions, how these systems remodel/adapt during cardiac disease, and finally how such knowledge can be leveraged in the evolving realm of autonomic regulation therapy for cardiac therapeutics.

Original language	English (US)
Pages (from-to)	3877-3909
Number of pages	33
Journal	Journal of Physiology
Volume	594
Issue number	14
DOIs	https://doi.org/10.1113/JP271869
State	Published - Jul 15 2016

ASJC Scopus subject areas

Physiology

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title = "Translational neurocardiology: preclinical models and cardioneural integrative aspects",

abstract = "Abstract: Neuronal elements distributed throughout the cardiac nervous system, from the level of the insular cortex to the intrinsic cardiac nervous system, are in constant communication with one another to ensure that cardiac output matches the dynamic process of regional blood flow demand. Neural elements in their various {\textquoteleft}levels{\textquoteright} become differentially recruited in the transduction of sensory inputs arising from the heart, major vessels, other visceral organs and somatic structures to optimize neuronal coordination of regional cardiac function. This White Paper will review the relevant aspects of the structural and functional organization for autonomic control of the heart in normal conditions, how these systems remodel/adapt during cardiac disease, and finally how such knowledge can be leveraged in the evolving realm of autonomic regulation therapy for cardiac therapeutics.",

author = "Ardell, {J. L.} and Andresen, {M. C.} and Armour, {J. A.} and Billman, {G. E.} and Chen, {P. S.} and Foreman, {R. D.} and N. Herring and O'Leary, {D. S.} and Sabbah, {H. N.} and Schultz, {H. D.} and K. Sunagawa and Zucker, {I. H.}",

note = "Publisher Copyright: {\textcopyright} 2016 The Authors. The Journal of Physiology {\textcopyright} 2016 The Physiological Society",

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AU - Ardell, J. L.

AU - Andresen, M. C.

AU - Armour, J. A.

AU - Billman, G. E.

AU - Chen, P. S.

AU - Foreman, R. D.

AU - Herring, N.

AU - O'Leary, D. S.

AU - Sabbah, H. N.

AU - Schultz, H. D.

AU - Sunagawa, K.

AU - Zucker, I. H.

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AB - Abstract: Neuronal elements distributed throughout the cardiac nervous system, from the level of the insular cortex to the intrinsic cardiac nervous system, are in constant communication with one another to ensure that cardiac output matches the dynamic process of regional blood flow demand. Neural elements in their various ‘levels’ become differentially recruited in the transduction of sensory inputs arising from the heart, major vessels, other visceral organs and somatic structures to optimize neuronal coordination of regional cardiac function. This White Paper will review the relevant aspects of the structural and functional organization for autonomic control of the heart in normal conditions, how these systems remodel/adapt during cardiac disease, and finally how such knowledge can be leveraged in the evolving realm of autonomic regulation therapy for cardiac therapeutics.

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Translational neurocardiology: preclinical models and cardioneural integrative aspects

Abstract

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