2006 Heart-Brain summit proceedings

J. ANDREW ARMOUR, MD, PhD

Center of Research
Hôpital du Sacré-Coeur
Université de Montréal
Montréal, Québec, Canada

ja-armour@crhsc.rtss.qc.ca

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(The little brain on the heart)

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ARTICLE INTRODUCTION

The function of the cardiovascular neuronal hierarchy is ultimately to match cardiac output to regional body blood flow demands. To comprehend how the varied elements of this hierarchy interact to accomplish this task, we must determine how its peripheral (intrathoracic and cervical ganglion) and central neurons communicate on an ongoing basis in the coordination of regional cardiac indices.

The cardiac neuronal hierarchy can be represented as a massively parallel and, for the most part, stochastic control system such that stable cardiac control generally occurs in the absence of obvious cause and effect (see sidebar below). Its peripheral neuronal interactions display emergent properties, functioning as they normally do in a highly optimized fashion to tolerate normal cardiac perturbations.

From a clinical perspective, excessive activation of select elements within the cardiac neuronal hierarchy has been thought to result in the genesis of atrial or ventricular arrhythmias. Indeed, the functional interconnectivity of the various neurons in the hierarchy is so organized that the whole can be catastrophically disabled by cascading failures initiated by relatively minor abnormal inputs. Defining the function of each of its populations may be required to understand how, for instance, excessive activation of select elements initiates cardiac arrhythmias. Such an understanding is required if one is to manage this state from a neurocardiological perspective.

This brief review presents the anatomy and function of this hierarchy’s afferent and efferent neurons and discusses the putative interactions that occur among its neuronal populations.

CITATIONS

1. Armour JA.
   Anatomy and function of the intrathoracic neurons regulating the mammalian heart. In: Zucker IH, Gilmore JP, eds. Reflex Control of the Circulation. Boca Raton, FL: CRC Press; 1991:1–37.

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