The role of the sympathetic nervous system in congestive heart failure

Abstract

Congestive heart failure is usually accompanied by cardiovascular signs of an increased sympathetic and a decreased parasympathetic efferent activity. A current hypothesis for these autonomic changes holds the baroreceptor mechanisms mainly responsible for this complex neural reflex pattern together with a decreased responsiveness of cardiac vagal afferent fivers. An alternative hypothesis is proposed here. Afferent sympathetic fibers with sensory endings in the atria and in the pulmonary veins are progressively excited by volume load. In cats with a chronic spinal section at C ⁸ , breathing spontaneously, an infusion of saline induces a reflex tachycardia through a sympatho-sympathetic neural circuit. In chronic dogs with intact cardiovascular innervation, the stimulation of aortic or cardiac sympathetic afferent fibers elicits an excitatory sympathetic reflex leading to hypertension and tachycardia; in addition, the sensitivity of baroreflexes is markedly reduced. Therefore, in congestive heart failure, especially in the absence of hypotension, the reflex excitation of the sympathetic outflow and the inhibition of the vagal efferent activity directed to the heart could be due to reflex mechanisms mediated by sympathetic cardiovascular afferents.