Heart Model
Cardiovascular Physiology Concepts Richard E. Klabunde, PhD

Cardiovascular Physiology Concepts 3e textbook cover Cardiovascular Physiology Concepts, 3rd edition textbook, Published by Wolters Kluwer (2021)

CNormal and Abnormal Blood Pressure, Physiology, Pathophysiology and Treatment book cover Normal and Abnormal Blood Pressure, published by Richard E. Klabunde (2013)

Neural Activation of the Heart and Blood Vessels

As shown in the following table, activation of sympathetic efferent nerves to the heart increases heart rate (positive chronotropy), contractility (positive inotropy), rate of relaxation (increased lusitropy), and conduction velocity (positive dromotropy). Parasympathetic effects are the opposite. Parasympathetic effects on inotropy are weak in the ventricle, but more pronounced in the atria. When the body activates the sympathetic system, it diminishes parasympathetic activity, and vice versa, so that the activities of these two branches of the autonomic nervous system respond reciprocally.

In blood vessels, sympathetic activation constricts arteries and arterioles (resistance vessels), which increases vascular resistance and decreases distal blood flow. When this occurs throughout the body, the increased vascular resistance causes arterial pressure to increase. Sympathetic-induced constriction of veins (capacitance vessels) decreases venous compliance and blood volume and increases venous pressure. Most blood vessels in the body do not have parasympathetic innervation. However, parasympathetic nerves do innervate salivary glands, gastrointestinal glands, and genital erectile tissue, where they cause vasodilation.

The overall effect of sympathetic activation is to increase cardiac output, systemic vascular resistance (both arteries and veins), and arterial blood pressure. Enhanced sympathetic activity is important during exercise, emotional stress, and during hemorrhagic shock.

 SympatheticPara-
sympathetic
Heart  
  Chronotropy (rate)+ + +− − −
  Inotropy (contractility)+ + +1
  Lusitropy (relaxation)+ + +1
  Dromotropy (conduction velocity)+ +− − −
Blood Vessels  
  Arterial constriction+ + +0 2
  Venous constriction+ + +0
Relative magnitude of responses is depicted by the number of + or - signs. 1 More pronounced in atria than ventricles. 2 Major vasodilator effects only in specific organs such as genitalia.

The actions of autonomic nerves are mediated by the release of neurotransmitters that bind to specific cardiac receptors and vascular receptors. These receptors are coupled to signal transduction pathways that evoke changes in cellular function.

Revised 12/7/2022

 

 

 

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