Morning Sympathetic Nerve Activity Is Not Increased in Humans : Implications for Mechanisms Underlying the Circadian Pattern of Cardiac Risk

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Circulation. 1995;91:2549-2555

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(Circulation. 1995;91:2549-2555.)
© 1995 American Heart Association, Inc.

Articles

Morning Sympathetic Nerve Activity Is Not Increased in Humans

Implications for Mechanisms Underlying the Circadian Pattern of Cardiac Risk

Holly R. Middlekauff, MD; Eric M. Sontz, MD

From the Division of Cardiology and Clinical Research Center, UCLA School of Medicine.

Correspondence to Holly R. Middlekauff, MD, UCLA Department of Medicine, Division of Cardiology, 47-123 CHS, 10833 Le Conte Ave, Los Angeles, CA 90024.

Background The sympathetic nervous system has been implicated inthe circadian pattern of myocardial infarction and sudden death.It has been postulated that sympathetic nerve activity is higherin the morning than at other times of the day and that thisincrease reflects an endogenous circadian pattern or is triggeredby changes in posture and the onset of morning activities.

Methods and Results To test these two concepts, we made microneurographicrecordings of muscle sympathetic nerve activity in the morning(6:30 to 8:30 AM) and afternoon (2:00 to 4:00 PM) in eight healthysubjects (mean age, 42±4 years), and intraindividualcomparisons (paired t tests) were made during (1) supine rest,(2) postural changes simulated by lower body negative pressure(LBNP), and (3) activity produced by sustained handgrip. Plasmacortisol, known to follow a circadian pattern, was measuredto assess whether normal circadian patterns were present underexperimental conditions. Plasma cortisol exhibited a robust circadianvariability (plasma cortisol [mean±SEM], AM versus PM:17±1 versus 9±1 µg/dL, P=.008). In contrast,basal muscle sympathetic nerve activity was not higher in themorning compared with the afternoon (group mean sympatheticnerve activity, AM versus PM: 38±6 versus 38±6 burstsper minute, P=NS). Similarly, plasma norepinephrine levels werenot higher in the morning compared with the afternoon (plasmanorepinephrine, AM versus PM: 157±17 versus 173±14pg/mL, P=NS). During postural stress simulated by LBNP, themagnitude of change in sympathetic nerve activity was not higherin the morning compared with the afternoon (LBNP -20 mm Hg,AM versus PM: 103±34% versus 157±31%, P=NS). Finally,the magnitude of change in muscle sympathetic nerve activityduring the first minute of handgrip exercise (AM versus PM:11±17% versus 8±11%, P=NS) or the second minuteof handgrip exercise (AM versus PM: 59±34% versus 60±15%, P=NS)was not higher in the morning compared with the afternoon.

Conclusions These findings challenge the concept that sympathetic nerveactivity is higher in the morning either during supine restor during postural changes and activity. We speculate that ifthe sympathetic nervous system is involved in the circadianpattern of sudden death, this involvement must reflect exaggeratedmorning end-organ responsiveness to norepinephrine, not enhancedmorning sympathetic outflow.

Key Words: circadian rhythm • nervous system • sudden death • myocardial infarction

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