Relationships between circulating catecholamines and low frequency heart period variability as indices of cardiac sympathetic activity during mental stress |
Author(s): , , , ,
Journal/Book: Psychosom Med. 1996; 58: 351 West Camden St, Baltimore, MD 21201-2436. Williams & Wilkins. 25-31.
Abstract: Heart rate increases during psychological stress are the product of cardiac sympathetic activation and parasympathetic withdrawal. Levels of plasma epinephrine (E) and norepinephrine (NE) have a long history as indicators of cardiac adrenergic activity and, accordingly, generally increase in response to psychological challenge. Recently, several investigators have suggested that indices derived from power spectral analysis of heart period variability (HPV) also may provide estimates of cardiac sympathetic nervous system activity. These indices include power in the low frequency band (0.04-0.15 Hz, LF), and the ratio of low to high frequency (0.15-0.50 Hz, HF) power (LF/HF). The relationship between spectral and neurohumoral indices during psychological stress has not been investigated. This issue was addressed by studying spectrally defined measures of HPV and levels of plasma E and NE in 34 normal subjects who participated in a study of responsiveness to a psychologically challenging arithmetic task. Heart rate (HR), LF and HF power, the LF/HF ratio, and blood pressure were measured during the 5-minute baseline and 5-minute task periods. Integrated samples of forearm venous blood were collected for both periods. E and NE were analyzed by high performance liquid chromatography. The task produced significant increases in HR, systolic and diastolic pressures, and NE. Of the 12 Pearson correlation coefficients used to examine the relationships between power spectral measures and catecholamines for the baseline, task, and delta values, none achieved statistical significance, suggesting little relationship between neurohumoral and spectral estimates of cardiac sympathetic activity. We conclude that under conditions of psychological stress, LF power provides no useful information about cardiac sympathetic activity, both because power in this frequency band falls whereas HR rises and because there is no relationship between LF power and plasma NE.
Note: Article RP Sloan, Columbia Univ, Columbia Presbyterian Med Ctr, Behav Med Program, Box 427, 622 W 168TH St, New York, NY 10032 USA
Keyword(s): spectral analysis; catecholamines; sympathetic nervous system; RESPIRATORY SINUS ARRHYTHMIA; POWER SPECTRAL-ANALYSIS; PSYCHOLOGICAL STRESS; ARTERIAL-PRESSURE; RATE RESPONSE; PLASMA; EXERCISE; BLOCKADE; HUMANS; OSCILLATIONS
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