Respiratory modulation of human autonomic rhythms

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Respiratory modulation of human autonomic rhythms

Leslie J. Badra¹, William H. Cooke², Jeffrey B. Hoag¹, Alexandra A. Crossman¹, Tom A. Kuusela³, Kari U. O. Tahvanainen⁴, and Dwain L. Eckberg¹

¹ Departments of Medicine and Physiology, Hunter Holmes McGuire Department of Veterans Affairs Medical Center and Medical College of Virginia at Virginia Commonwealth University, Richmond, Virginia 23249; ² Center for Biomedical Engineering, Michigan Technological University, Houghton, Michigan 49931; ³ Physics, University of Turku, FIN-70211 Turku, Finland; and ⁴ Clinical Physiology, Kuopio University Hospital, FIN-20014 Kuopio, Finland

We studied the influence of three types of breathing [spontaneous, frequency controlled (0.25 Hz), and hyperventilation with100% oxygen] and apnea on R-R interval, photoplethysmographicarterial pressure, and muscle sympathetic rhythms in nine healthyyoung adults. We integrated fast Fourier transform power spectraover low (0.05-0.15 Hz) and respiratory (0.15-0.3 Hz) frequencies;estimated vagal baroreceptor-cardiac reflex gain at low frequencieswith cross-spectral techniques; and used partial coherence analysisto remove the influence of breathing from the R-R interval, systolicpressure, and muscle sympathetic nerve spectra. Coherence amongsignals varied as functions of both frequency and time. Partializationabolished the coherence among these signals at respiratory butnot at low frequencies. The mode of breathing did not influencelow-frequency oscillations, and they persisted during apnea. Ourstudy documents the independence of low-frequency rhythms fromrespiratory activity and suggests that the close correlationsthat may exist among arterial pressures, R-R intervals, and musclesympathetic nerve activity at respiratory frequencies result fromthe influence of respiration on these measures rather than fromarterial baroreflex physiology. Most importantly, our resultsindicate that correlations among autonomic and hemodynamic rhythmsvary over time and frequency, and, thus, are facultative ratherthanfixed.

hyperventilation; apnea; muscle sympathetic nerve activity; vagal; baroreflex

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				W. H. Cooke, J. R. Carter, and T. A. Kuusela Human cerebrovascular and autonomic rhythms during vestibular activation Am J Physiol Regulatory Integrative Comp Physiol, May 1, 2004; 286(5): R838 - R843. [Abstract] [Full Text] [PDF]

				J. Cui, R. Zhang, T. E. Wilson, and C. G. Crandall Spectral analysis of muscle sympathetic nerve activity in heat-stressed humans Am J Physiol Heart Circ Physiol, March 1, 2004; 286(3): H1101 - H1106. [Abstract] [Full Text] [PDF]

				P. M. Lehrer, E. Vaschillo, B. Vaschillo, S.-E. Lu, D. L. Eckberg, R. Edelberg, W. J. Shih, Y. Lin, T. A. Kuusela, K. U. O. Tahvanainen, et al. Heart Rate Variability Biofeedback Increases Baroreflex Gain and Peak Expiratory Flow Psychosom Med, September 1, 2003; 65(5): 796 - 805. [Abstract] [Full Text] [PDF]

				G. Piccirillo, M. Nocco, A. Moise, M. Lionetti, C. Naso, S. di Carlo, and V. Marigliano Influence of Vitamin C on Baroreflex Sensitivity in Chronic Heart Failure Hypertension, June 1, 2003; 41(6): 1240 - 1245. [Abstract] [Full Text] [PDF]

				D. L Eckberg The human respiratory gate J. Physiol., April 15, 2003; 548(2): 339 - 352. [Abstract] [Full Text] [PDF]

				M. A Cohen and J A. Taylor Short-term cardiovascular oscillations in man: measuring and modelling the physiologies J. Physiol., August 1, 2002; 542(3): 669 - 683. [Abstract] [Full Text] [PDF]

				S. C. Malpas Neural influences on cardiovascular variability: possibilities and pitfalls Am J Physiol Heart Circ Physiol, January 1, 2002; 282(1): H6 - H20. [Abstract] [Full Text] [PDF]