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Parasympathetic withdrawal is an integral component of autonomic imbalance in congestive heart failure: Demonstration in human subjects and verification in a paced canine model of ventricular failure

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Abstract

Although enhanced sympathetic tone is a well recognized component of the autonomic profile characteristic of congestive heart failure, the contribution of parasympathetic withdrawal to this autonomic imbalance is less well described. The technique of spectral analysis of heart rate variability provides a dynamic map of sympathetic and parasympathetic tone and was thus used to define the nature of sympathetic-parasympathetic interactions in humans with idiopathk dilated cardiomyopathy and in a paced canine model of congestive heart failure. Humans with cardiomyopathy were found to have an augmentation of the sympathetically mediated low frequency area of the power density spectrum.

Parasympathetic withdrawal was demonstrated by significant reductions in the parasympathetically mediated high frequency area (p < 0.05) and the ratio of high to low frequency areas (p < 0.01). Administration of atropine to normal subjects resulted in a significant reduction in the high frequency area (p < 0.05) and the high/low frequency area ratio, both of which decreased within the range noted in patients with congestive heart failure. Administration of isoproterenol in normal subjects led to an augmentation of the low frequency area but to only a small decrease in the high/low frequency area ratio.

Induction of congestive heart failure in a paced canine model resulted in alterations in the autonomic profile that resembled those seen in humans with ventricular failure. The prominent high frequency region of the spectrum at baseline, indicating a predominance of parasympathetic tone, was absent after the evolution of congestive heart failure, and there was a marked augmentation of the low frequency region of the spectrum.

These observations indicate that parasympathetic withdrawal, in addition to the well known augmentation of sympathetic drive, is an integral component of the autonomic imbalance characteristic of chronic congestive heart failure and can be detected noninvasively by spectral analysis of heart rate variability. Furthermore, enhanced sympathetic stimulation alone does not reproduce this characteristic profile, as evidenced by the isoproterenol-induced changes in the power density spectrum in normal subjects.

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This study was supported in part by the Seward Schooler Family Foundation, Columbus, Ohio and the American Heart Association Ohio Affiliate, Columbus, Ohio.

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Dr. Binkley is the recipient of a Clinical Associate Physician Award from the National Institutes of Health, Bethesda, Maryland.