Central Vagotonic Effects of Atropine Modulate Spectral Oscillations of Sympathetic Nerve Activity

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Circulation. 1998;98:1394-1399

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ATROPINE

Central Vagotonic Effects of Atropine Modulate Spectral Oscillations of Sympathetic Nerve Activity

Nicola Montano, MD, PhD; Chiara Cogliati, MD; Alberto Porta, MD; Massimo Pagani, MD; Alberto Malliani, MD; Krzysztof Narkiewicz, MD, PhD; Francois M. Abboud, MD; Clay Birkett, MS; ; Virend K. Somers, MD, PhD

From the Centro L.I.T.A. di Vialba, Centro Ricerche Cardiovascolari, CNR, Medicina Interna II, Ospedale "L. Sacco," Università di Milano, Italy (N.M., C.C., A.P., M.P., A.M.) and the Cardiovascular Division, Department of Internal Medicine, College of Medicine, University of Iowa, Iowa City (K.N., F.M.A., C.B., V.K.S.).

Correspondence to Virend K. Somers, MD, PhD, Department of Internal Medicine, Cardiovascular Division, E314–2 GH, University of Iowa, 200 Hawkins Dr, Iowa City, IA. E-mail virend-somers{at}uiowa.edu

Background—Low-dose atropine causes bradycardia eitherby acting on the sinoatrial node or by its effects on centralmuscarinic receptors increasing vagal activity. Any centralmuscarinic effects of high-dose atropine on RR interval are maskedby peripheral muscarinic blockade at the sinoatrial node, whichcauses tachycardia. Effects of central parasympathetic activationon sympathetic activity are not known.

Methods and Results—Using power spectral analysis of RR interval,intra-arterial blood pressure, respiration, and muscle sympatheticnerve activity (MSNA), we examined the effects of both low (2µg/kg IV) and high (15 µg/kg IV) doses of atropine. Afterlow-dose atropine, RR increased by 9±1% (P<0.0001),the low-frequency (LF) component (in normalized units, NU) ofRR variability decreased by -32±8%, and the high-frequency(HF)_NU component increased (+74±19%); hence, LF/HF ofRR variability fell by 52±10% (all P<0.01). Althoughoverall MSNA did not change, LF_NU of MSNA decreased (-15±5%),HF_NU of MSNA increased (+31±3%), and LF/HF of MSNA fell(-41±8%) (all P<0.01). After high-dose atropine, LF_NUof MSNA decreased (-17±12%), HF_NU of MSNA increased (+22±3%),and LF/HF of MSNA fell (-51±21%) (all P<0.02).

Conclusions—Increasing central parasympathetic activitywith low-dose atropine is associated with an increase in theHF and a decrease in the LF oscillations of both RR intervaland MSNA variability. High-dose atropine similarly induces anincrease in the HF and a decrease in the LF components of MSNAvariability. Thus, central parasympathetic activation is ableto modulate the oscillatory characteristics of sympathetic nervetraffic to peripheral blood vessels.

Key Words: vagus nerve • nervous system, autonomic • heart rate • muscles • nervous system, sympathetic

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				M.F. Hilton, M.J. Chappell, W.A. Bartlett, A. Malhotra, J.M. Beattie, and R.M. Cayton The sleep apnoea/hypopnoea syndrome depresses waking vagal tone independent of sympathetic activation Eur. Respir. J., June 1, 2001; 17(6): 1258 - 1266. [Abstract] [Full Text] [PDF]

Clinical Investigation and Reports

Central Vagotonic Effects of Atropine Modulate Spectral Oscillations of Sympathetic Nerve Activity

				N. Montano, C. Cogliati, V. J. D. da Silva, T. Gnecchi-Ruscone, M. Massimini, A. Porta, and A. Malliani Effects of Spinal Section and of Positive-Feedback Excitatory Reflex on Sympathetic and Heart Rate Variability Hypertension, December 1, 2000; 36(6): 1029 - 1034. [Abstract] [Full Text] [PDF]

				X. Shi, D. W. Wray, K. J. Formes, H.-W. Wang, P. M. Hayes, A. H. O-Yurvati, M. S. Weiss, and I. P. Reese Orthostatic hypotension in aging humans Am J Physiol Heart Circ Physiol, October 1, 2000; 279(4): H1548 - H1554. [Abstract] [Full Text] [PDF]

				D. Lucini, R. V. Milani, H. O. Ventura, M. R. Mehra, F. Messerli, and M. Pagani Study of Arterial and Autonomic Effects of Cyclosporine in Humans Hypertension, June 1, 2000; 35(6): 1258 - 1263. [Abstract] [Full Text] [PDF]

				C. Cogliati, R. Magatelli, N. Montano, K. Narkiewicz, and V. K. Somers Detection of low- and high-frequency rhythms in the variability of skin sympathetic nerve activity Am J Physiol Heart Circ Physiol, April 1, 2000; 278(4): H1256 - H1260. [Abstract] [Full Text] [PDF]

				R. Furlan, A. Porta, F. Costa, J. Tank, L. Baker, R. Schiavi, D. Robertson, A. Malliani, and R. Mosqueda-Garcia Oscillatory Patterns in Sympathetic Neural Discharge and Cardiovascular Variables During Orthostatic Stimulus Circulation, February 29, 2000; 101(8): 886 - 892. [Abstract] [Full Text] [PDF]

				D. L. Eckberg Mathematical Treatment of Autonomic Oscillations Circulation, October 12, 1999; 100 (15): e63 - e63. [Full Text] [PDF]

				J. A. Taylor, C. W. Myers, N. Montano, C. Cogliati, A. Porta, M. Pagani, A. Malliani, K. Narkiewicz, F. M. Abboud, and V. K. Somers Mathematical Treatment of Autonomic Oscillations - 2 � Response Circulation, October 12, 1999; 100 (15): e64 - e64. [Full Text] [PDF]

				E. R. Azevedo and J. D. Parker Parasympathetic Control of Cardiac Sympathetic Activity : Normal Ventricular Function Versus Congestive Heart Failure Circulation, July 20, 1999; 100(3): 274 - 279. [Abstract] [Full Text] [PDF]

				F. Iellamo, P. Pizzinelli, M. Massaro, G. Raimondi, G. Peruzzi, and J. M. Legramante Muscle Metaboreflex Contribution to Sinus Node Regulation During Static Exercise : Insights From Spectral Analysis of Heart Rate Variability Circulation, July 6, 1999; 100(1): 27 - 32. [Abstract] [Full Text] [PDF]

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