Summary
Resting heart rate is characterized by several overlapping oscillations at several frequencies. Oscillations at each frequency is related to a specific set of reflexes that plays a role in cardiovascular homeostasis. Recent research on biofeedback training to increase the amplitudes of these frequencies has found that people can accomplish this task by breathing at frequencies that resonate with oscillations at slower frequency ranges. The slower heart rate oscillations appear to reflect baroreflex activity. Such biofeedback training may exercise the baroreflexes and thereby increase baroreflex efficiency and decrease vulnerability to disorders characterized by autonomic hyperreactivity (e.g., asthma, hypertension, anxiety disorders). Zen monks have a low rate of cardiovascular disease, and also breathe very slowly during the practice of Zazen, causing resonance with oscillations in cardiovascular variables related to heart rate and blood pressure control. One very experienced monk breathed at a rate of approximately once/minute, and appeared to stimulate reflexes that control vascular tone and body temperature.
The author is indebted to the assistance of the following individuals in this research: Yuji Sakaki, Yoshihiro Saito, MA, Alexander Smetankin, PhD, Annabaker Garber, PhD, and Evgeny Vaschillo, PhD.
This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
Preview
Unable to display preview. Download preview PDF.
References
Schneiderman N, McCabe PM. (1989) Psychophysiological strategies in laboratory research. In: Schneiderman N, Weiss SM, Kaufman PG (Eds.), Handbook of research methods in cardiovascular behavioral medicine. Plenum, New York, Chapter 22, pp 349–364
Berntson GG, Caccioppo JT, Quigley KS (1993). Respiratory sinus arrhythmia: autonomic origins, physiological mechanisms, and psychophysiological implications. Psychophysiology 30:183–196
Giardino ND, Lehrer PM, Feldman JM (In press) The role of oscillations in self-regulation: their contribution to homeostasis. In: Kenny D, McGuigan FJ (eds) Stress and health: Research and clinical applications. Harwood publishers, Geneva
Goldberger A L, Rigney DR, Mietus J, Antman EM, Greenwald S (1988) Nonlinear dynamics in sudden cardiac death syndrome: Heart rate oscillations and bifurcations. Experientia 44:983–987
Kleiger RE, Miller J P, Bigger JT, Moss AJ (1987) Decreased heart rate variability and its association with increased mortality after acute myocardial infarction. American Journal of Cardiology 59:256–262.
Groome LJ, Loizou PC, Holland SB, Smith LA, HoffC (1999) High vagal tone is associated with more efficient regulation of homeostasis in low-risk human fetuses. Developmental Psychobiology 35:25–34.
Boutcher SH, Nugent FW, McLaren PF, Weltman AL (1998) Heart period variability of trained and untrained men at rest and during mental challenge. Psychophysiology 35:16–22.
Asmundson GJG, Stein MB (1994) Vagal attenuation in panic disorder: An assessment of parasympathetic nervous system function and subjective reactivity to respiratory manipulations. Psychosomatic Medicine 56:187–193
Rechlin T, Weis M, Spitzer A, Kaschka WP (1994) Are affective disorders associated with alterations of heart rate variability? Journal of Affective Disorders 32:271–275.
Thayer JF, Friedman BH, Borkovec TD (1996) Autonomic characteristics of generalized anxiety disorder and worry. Biological Psychiatry 15:255–266
Yeragani VK, Balon R, Pohl R, Ramesh C (1995) Depression and heart rate variability. Biological Psychiatry 38:768–770
Rother M, Zwiener U, Eiselt M, Witte H, Zwacka G, Frenzel J (1987) Differentiation of healthy newborns and newborns-at-risk by spectral analysis of heart rate fluctuations and respiratory movements. Early Human Development 15:349–363.
Fleisher LA (1996) Heart rate variability as an assessment of cardiovascular status. Journal of Cardiothoracic Vascular Anesthesiology 10:659–671.
De Meersman RE (1993) Aging as a modulator of respiratory sinus arrhythmia. Journal of Gerontology 48:B74–B78
Sloan RP, DeMeersman RRE, Shapiro PA, Bagiella E, Chernikhova D, Kühl JP, Paik M, Myers MM: Blood pressure variability responses to tilt are buffered by cardiac autonomic control. Am J Physiol 273 (Heart Circ Physiol 42): H1427–H1431, 1997.
Dougherty CM, Burr RL (1992) Comparison of heart rate variability in survivors and nonsurvivors of sudden cardiac arrest. American Journal of Cardioloby 70:441–448.
Huikuri HV, Makikallio TH, Airaksinen KE, Seppanen T, Puukka P, Raiha IJ, Sourarider LB (1998) Power-law relationship of heart rate variability as a predictor of mortality in the elderly. Circulation 97:2031–2036
Porges SW (1986) Respiratory sinus arrhythmia: physiological basis, quantitative methods, and clinical implications. In: Grossman P, Janssen K, Vaitl D (eds) Cardiorespiratory and cardiosomatic psychophysiology. Plenum Press, New York
Grossman P, Wientjes K (1986) Respiratory sinus arrhythmia and parasympathetic cardiac control: some basic issues concerning quantification, application and implications. In: Grossman P, Janssen K, Vaitl D (eds), Cardiorespiratory and cardiosomatic psychophysiology. Plenum Press, New York, pp. 117–138.
Saul JP, Berger RD, Albrecht P, Stein SP, Chen MH, Cohen RJ (1991) Transfer function analysis of the circulation: unique insights into cardiovascular regulation. American Journal of Physiology 261:H1231–H1245
Porges SW (1995) Orienting in a defensive world: mammalian modifications of our evolutionary heritage. A Polyvagal Theory. Psychophysiology 32:301–318
Porges SW (1992) Vagal tone: Physiologic marker of stress vulnerability. Pediatrics 90:498–504
Valentinuzzi ME, Geddes LA (1974) The central component of the respiratory heart-rate response. Cardiovascular Research Center Bulletin 12:87–103
Akselrod S, Gordon D, Ubel FA, Shannon DC, Barger AC, Cohen RJ (1981) Power spectrum analysis of heart rate fluctuation: a quantitative probe of beat-to-beat cardiovascular control. Science 213:220–222
Pomeranz B, Macaulay RJB, Caudill MA, Kutz I, Adam D, Gordon D, Kilborn KA, Barger C, Shannon DC, Cohen RJ, Benson H. (1985) Assessment of autonomic function in humans by heart rate spectral analysis. American Journal of Physiology 248:H151–H153
Bernardi L, Leuzzi S, Radaelli A, Passino C, Johnston JA, Sleight P (1994) Low frequency spontaneous fluctuations of R-R interval and blood pressure in conscious humans: a baroreceptor or central phenomenon? Clinical Science 87:647–654.
Vaschillo E, Lehrer P, Rishe N, Konstantinov M (submitted for publication) Frequency frequency characteristics of voluntarily-induced heart rhythm and blood pressure oscillations. UMDNJ-Robert Wood Johnson Medical School, Piscataway, NJ
Davidson S, Reina N, Shefi O, Hai-Tov U, Akselrod S (1997) Spectral analysis of heart rate fluctuations and optimum thermal management for low birth weight infants. Medical and Biological Engineering and Computing 35:619–625
Fleisher LA, Frank SM, Sessler DI, Cheng C, Matsukawa T, Vannier CA (1996) Thermoregulation and heart rate variability. Clinical Science 90:97–103.
Taylor JA, Carr DL, Meyers CW, Eckberg DL (1998) Mechanisms underlying very-low-frequency RR-interval oscillations in humans. Circulation 98:547–555
Vaschillo EG, Zingerman AM, Konstantinov MA, Menitsky DN (1983) Research on the resonance characteristics for cardiovascular system. Human Physiology 9:257–265.
Chernigovskaya NV, Vachillo EG, Petrash VV, Rusanovsky VV (1990) Voluntary regulation of the heart rate as a method of functional condition correction in neurotics. Human Physiology 16:58–64.
Vasilevskii NN, Sidorov IuA, Suvorov NB (1993) [Role of biorhythmologic processes in adaptation mechanisms and correction of regulatory dysfunctions] [Russian] Fiziologii Cheloveka 19:91–98.
Chernigovskaya NV, Vachillo EG, Rusanovsky BB, Kashkarova OE (1990) Instrumental autotraining of mechanisms for cardiovascular function regulation in treatment of neurotics [Russian]. The SS Korsakov’s Journal of Neuropathology and Psychiatry 90:24–28.
Sidorov IuA, Vasilevskii IuA (1994) [The physiological problems of biofeedback control by the heart rate]. [Russian] NNFiziol Zh Im IM Sechenova 80:1–7
Ogata M, Ikeda M., Kuratsune M (1984) Mortality among Japanese Zen priests. Journal of Epidemiology and Community Health 38:161–166
Lehrer PM, Sasaki Y, Saito Y (In press) Zazen and cardiac variability. Psychosomatic Medicine
Matsumoto H (1977) A psychological study of the relation between respiratory function and emotion. In: Akishige Y (ed) Psychological studies of Zen, Vol 1. Komazawa University, Tokyo, pp. 167–206.
Author information
Authors and Affiliations
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2001 Springer Japan
About this paper
Cite this paper
Lehrer, P. (2001). Biofeedback for Respiratory Sinus Arrhythmia and Tanden Breathing among Zen Monks: Studies in Cardiovascular Resonance. In: Haruki, Y., Homma, I., Umezawa, A., Masaoka, Y. (eds) Respiration and Emotion. Springer, Tokyo. https://doi.org/10.1007/978-4-431-67901-1_11
Download citation
DOI: https://doi.org/10.1007/978-4-431-67901-1_11
Publisher Name: Springer, Tokyo
Print ISBN: 978-4-431-67988-2
Online ISBN: 978-4-431-67901-1
eBook Packages: Springer Book Archive