Saratov JOURNAL of Medical and Scientific Research

Oscillatory processes in vegetative regulation of cardiovascular system (Review)

Year: 2011, volume 7 Issue: №1 Pages: 034-039
Heading: Physiology and Pathophysiology Article type: Review
Authors: Kiselev A.R., Gridnev V.I.
Organization: Saratov Institute of Cardiology, Russia

The research work provides current understanding of the functional organization of vegetative regulation of cardiovascular system. The basic oscillatory processes in vegetative regulation system have been determined, and the information about their functional properties has been generalized. The most significant oscillatory processes are main heart rhythm, respiration and low-frequency oscillations in vegetative regulation of cardiovascular system. The article considers intersystem interactions involving the vegetative regulation of cardiovascular system

References (including transliteration from Cyrillic to Roman script)

1.  Anohin P.K. Principial'nye voprosy obwej teorii funkcional'nyh sistem. Principy sistemnoj organizacii funkcij. M.: Nauka, 1973. S. 5-61.
2.  Glass L. Introduction to Controversial Topics in Nonlinear Science: Is the Normal Heart Rate Chaotic? // Chaos. 2009. Vol. 19. P. 028501.
3.    Heart rate variability: Standarts of measurement, physiological interpretation, and clinical use // Europ. Heart J. 1996. Vol. 17. P. 354-381.
4.  Baevskij P.M., Ivanov GG. Variabel'nost' serdechnogo ritma: teoriticheskie aspekty i vozmozhnosti klinicheskogo primenenija. M.: Medicina, 2000. 295 s.
5.  Kamath M.V, Fallen E.L. Power Spectral Analysis of Heart Rate Variability: A Noninvasive Signature of Cardiac Autonomic Function // Critical Reviews in Biomechanical Engineering. 1993. Vol.21, iss. 3. P. 245-311.
6.  Wang D.Y., Pomfrett C.J., Healy T.E. Respiratory sinus arrhythmia: a new, objective sedation score // Br. J. Anaesth. 1993. Vol. 71, iss. 3. P. 354-358.
7.  Effect of respiratory rate on the relationships between RR interval and systolic blood pressure fluctuations: a frequency-dependent phenomenon / M.V. Pitzalis, F. Mastropasqua, F. Massari [et al.] // Cardiovascular Research. 1998. Vol. 38, iss. 2. P. 332-339.
8.  Cardiocirculatory coupling during sinusoidal baroreceptor stimulation and fixed-frequency breathing / S Keyl, M. Dambacher, A. Schneider [et al.] // Clinical Science. 2000. Vol. 99. P.113-124.
9.  Taylor J.A., Eckberg D.L. Fundamental relations between short-term RR interval and arterial pressure oscillations in humans// Circulation. 1996. Vol. 93. P. 1527-1532.
10.  Kunitake T, Ishiko N. Power spectrum analysis of heart rate fluctuations and respiratory movements associated with cooling the human skin // J. Auton. Nerv. Syst. 1992. Vol. 38, № 1. P. 45-55.
11.   Hajutin B.M., Lukoshkova E.B. Kolebanija chastoty serdcebienij: spektral'nyj analiz // Vestnik aritmologii. 2002, №26. S. 10-21.
12.    Habler H.-J., Janig W., Michaelis M. Respiratory modulation in the activity of sympathetic neurons // Progr. in Neurobiol. 1994. Vol. 43. P. 567-606.
13.   Shykoff B.E., Nagvi S.S., Menon A.S., Slutsky S. Respiratory sinus arrhythmia in dogs // J. Clin. Invest. 1991. Vol.87, iss. 5. P. 1621-1627.
14.    Respiratory-related heart rate variability persists during central apnea in the dog: mechanisms and implications / R.L. Homer, D. Brooks, R.J. Kozak [et al.] // J. Appl. Physiol. 1995. Vol. 78, iss. 6. P. 2003-2013.
15.   On the existence of a common cardio-respiratory network / D.W. Richter, K.M. Spyer, K.M. Gilbey [et al.] // Cardio-respiratory and motor coordination. Berlin: Springer-Verlag, 1991. P. 118-130.
16.  Respiratory sinus arrhythmia in humans: an obligatory role for vagal feedback in the lung / B.H. Taha, P.M. Simon, J.A. Dempsey [et al.] // J. Appl. Physiol. 1995. Vol. 78, iss. 2. P. 638-645.
17.   Julien C, Malpas S.C, Stauss H.M. Sympathetic modulation of blood pressure variability // J. Hypertens. 2001. Vol. 19. P. 1707-1712.
18.    Malpas S.C. Neural influences on cardiovascular variability: possibilities and pitfalls //Amer. J. Physiol. Heart Circ. Physiol. 2002. Vol. 282. P. 6-20.
19.  Hemodynamic basis of oscillations in systemic arterial pressure in conscious rats/ B.J. Janssen, J. Oosting, D.W. Slaaf [et al.] //Amer. J. Physiol. 1995. Vol. 269. P. 62-71.
20.  Malpas S.C, Burgess D.E. Renal SNA as the primary mediator of slow oscillations in blood pressure during hemorrhage //Amer. J. Physiol. 2000. Vol. 279. P. 1299-1306.
21.  Taylor J.A., Wlliams T.D., Seals D.R., Davy K.P Low-frequency arterial pressure fluctuations do not reflect sympathetic outflow: gender and age differences //Amer. J. Physiol. 1998. Vol.274. P. 1194-1201.
22.  Oscillatory patterns in sympathetic neural discharge and cardiovascular variables during orthostatic stimulus / R. Furlan, A. Porta, F. Costa [et al.] // Circulation. 2000. Vol. 101. P. 886-892.
23.  Low-frequency oscillation of sympathetic nerve activity decreases during development of tilt-induced syncope preceding sympathetic withdrawal and bradycardia /A. Kamiya, J. Hayano, T. Kawada [et al.] // Amer. J. Physiol. Heart Circ. Physiol. 2005. Vol.289. P. 1758-1769.
24.  Mancia G., Parati G., Castiglioni P., Di Rienzo M. Effect of sinoaortic denervation on frequency-domain estimates of baroreflex sensitivity in conscious cats //Amer. J. Physiol. 1999. Vol.276. P. 1987-1993.
25.   Janssen B.J., Malpas S.C, Burke S.L., Head G.A. Frequency-dependent modulation of renal blood flow by renal nerve activity in conscious rabbits // Amer. J. Physiol. 1997. Vol. 273. P. 597-608.
26.  Janssen B.J., Smits J.F. Autonomic control of blood pressure in mice: basic physiology and effects of genetic modification // Amer. J. Physiol. Regul. Integr. Sotr. Physiol. 2002. Vol. 282. P. 1545-1564.
27.   Grasso R., Rizzi G., Schena F, Cevese A. Arterial baroreceptors are not essential for low frequency oscillation of arterial pressure // J. Auton. Nerv. Syst. 1995. Vol. 50. P. 323-331.
28.  Presence of vasomotor and respiratory rhythms in the discharge of single medullary neurons involved in the regulation of cardiovascular system / N. Montano, T. Gnecchi-Ruscone, A. Porta [etal.]//J. Auton. Nerv. Syst. 1996. Vol. 57. P. 116-122.
29.   Effects of spinal section and of positive-feedback excitatory reflex on sympathetic and heart rate variability / N. Montano, O Cogliati, V.J. Da Silva [et al.] // Hypertension. 2000. Vol.36. P. 1029-1034.
30. DeBoer R.W., Karemaker J.M., Strackee J. Hemodynamic fluctuations and baroreflex sensitivity in humans: a beat-to-beat model //Amer. J. Physiol. 1987. Vol. 253. P. 680-689.
31.  Linear modelling analysis of baroreflex control of arterial pressure variability in rats / B. Chapuis, E. Vidal-Petiot, V Ore'a [et al.] // J. Physiol. 2004. Vol. 559. P. 639-649.
32.  Supine low-frequency power of heart rate variability refl ects barorefl ex function, not cardiac sympathetic innervation / J.P Moak, D.S. Goldstein, B.A. Eldadah [et al.] // Cleveland Clinic Journal of Medicine. 2009. Vol. 76. Suppl. 2. P. 51-59.
33.  Mancia G., Parati G., Castiglioni P., Di Rienzo M. Effect of sinoaortic denervation on frequency-domain estimates of baroreflex sensitivity in conscious cats //Amer. J. Physiol. 1999. Vol.276. P. 1987-1993.
34.  Barre'sO, De Souza Neto E.P, Julien O Effect of alpha-adrenoceptor blockade on the 0.4-Hz sympathetic rhythm in conscious rats // Clin. Exp. Pharmacol. Physiol. 2001. Vol. 28. P. 983-985.
35.  Dynamics of sympathetic baroreflex control of arterial pressure in rats / T. Sato, T. Kawada, M. Inagaki [et al.] //Amer. J. Physiol. Regul. Integr. Sotr. Physiol. 2003. Vol. 285. P. 262-270.
36.  Dynamic baroreflex control of blood pressure: influence of the heart vs. peripheral resistance / H.K. Liu, S.J. Guild, J.V Ringwood [et al.] //Amer. J. Physiol. Regul. Integr. Sotr. Physiol. 2002. Vol. 283. P. 533-542.
37.  Metodika rekonstrukcii modeli sistemy simpaticheskoj baroreflektornoj reguljacii arterial'nogo davlenija po jeksperimental'nym vremennym rjadam / A.S. Karavaev, V.I. Ponomarenko, M.D. Prohorov [i dr.] // Tehnologii zhivyh sistem. 2007. T. 4, № 4. S. 34-41.
38.   Input size dependence of the baroreflex neural arc transfer characteristics / T. Kawada, Y. Yanagiya, K Uemura [et al.] // Amer. J. Physiol. Heart Circ. Physiol. 2003. Vol. 284. P. 404-415.
39.   Baroreflex control of renal sympathetic nerve activity and spontaneous rhythms at Mayer wave's frequency in rats / Y. Cheng, B. Cohen, Ore'a V. [et al.] //Auton. Neurosci. 2004. Vol. 111. P. 80-88.
40.   Differential responses of frequency components of renal sympathetic nerve activity to arterial pressure changes in conscious rats/ D. Bertram, V. Ore'a, B. Chapuis [et al.] //Amer. J. Physiol. Regul. Integr. Sotr. Physiol. 2005. Vol. 289. P. 1074-1082.
41. Lucini D., Norbiato G., Clerici M., Pagani M. Hemodynamic and autonomic adjustments to real life stress conditions in humans// Hypertension. 2002. Vol. 39. P. 184-188.
42.   Comparative study of heart rate variability between healthy human subjects and healthy dogs, rabbits and calves / A. Manzo, Y. Ootaki, O Ootaki [et al.] // Lab. Anim. 2009. Vol. 43. P. 41-45.
43.  Linear modelling analysis of baroreflex control of arterial pressure variability in rats / B. Chapuis, E. Vidal-Petiot, V Ore'a [et al.] // J. Physiol. 2004. Vol. 559. P. 639-649.
44.  Hammer P.E., Saul J.P Resonance in a mathematical model of baroreflex control: arterial blood pressure waves accompanying postural stress // Amer. J. Physiol. Regul. Integr. Sotr. Physiol. 2005. Vol. 288. P. 1637-1648.
45.  Julien O, Chapuis V., Cheng Y, Barre's O Dynamic interactions between arterial pressure and sympathetic nerve activity: role of arterial baroreceptors // Amer. J. Physiol. Regul. Integr. Sotr. Physiol. 2003. Vol. 285. P. 834-841.
46. Heart rate and blood pressure variability in normal subjects compared with data from beat-to-beat models developed from de Boer's model of the cardiovascular system / A.M. Whittam, R.H. Claytont, S.W. Lord [et al.] // Physiol Meas. 2000. Vol. 21, iss. 2. P. 305-318.
47.  Exploring directionality in spontaneous heart period and systolic pressure variability interactions in humans: implications in the evaluation of baroreflex gain / G. Nollo, L. Faes, A. Porta [et al.] // Amer. J. Physiol. Heart Circ. Physiol. 2005. Vol. 288. P. 1777-1785.
48.   Legramante J.M., Raimondi G., Massaro M., lellamo F. Positive and negative feedback mechanisms in the neural regulation of cardiovascular function in healthy and spinal cord-injured humans//Circulation. 2001. Vol. 103. P. 1250-1255.
49.  Nickel P., Nachreiner F. Sensitivity and Diagnosticity of the 0.1-Hz Component of Heart Rate Variability as an Indicator of Mental Workload // Human Factors: The Journal of the Human Factors and Ergonomics Society. 2003. Vol. 45, iss. 4. P. 575-590.
50.  Vnutrennjaja sinhronizacija osnovnyh 0,1 Gc - chastotnyh ritmov v sisteme vegetativnogo upravlenija serdechnososudistoj sistemoj /A.R. Kiselev, A.B. Bespjatov, O.M. Po-
snenkova [i dr.] // Fiziologija cheloveka. 200. T. 33, № 2. S. 69-75.
51.   Dynamic carotid baroreflex control of the peripheral circulation during exersice in humans / D.W. Wray, P.J. Fadel, D.M. Keller [et al.] // J. Physiol. 2004. Vol. 559, iss. 2. P. 675-684.
52.   Dampney R.A.L. Functional organization of central pathways regulating the cardiovascular system // Physiol. Rev. 1994. Vol.74. P. 323-364.
53.  Sinhronizacija serdcebienija i ritma reguljacii sosudistogo tonusa s dyhaniem / V.I. Ponomarenko, V.I. Grid-nev, M.D. Prohorov [i dr.] // Biomedicinskie tehnologii i radiojelektronika. 2004. № 8-9. S. 40-51.
54.   Glass L. Synchronisation and rhythmic processes in physiology // Nature. 2001. Vol. 410. P. 277-284.
55.   Bracic-Lotric M., Stefanovska A. Synchronization and modulation in the human cardiorespiratory system // Physica A. 2000. Vol. 283. P. 451-461.
56.  Pokrovskij B.M. Serdechno-dyhatel'nyj sinhronizm v ocenke reguljatorno-adaptacionnyh vozmozhnostej organizma. Krasnodar: Kuban'-kniga, 2010. 244 s.
57.  Ivanov ON. Vegetativnaja reguljacija i perifericheskoe krovoobrawenie u podrostkov s nejrocirkuljatornoj distoniej kardial'nogo tipa // Vestnik aritmologii. 2003. № 32. S. 70-74.
58.  Krupatkin A.I. Kolebanija krovotoka chastotoj okolo 0,1 Gc v mikrososudah kozhi ne otrazhajut simpaticheskuju reguljaciju ih tonusa // Fiziologija cheloveka. 2009. T. 35, № 2. S. 60-69.
59.   Synchronization of low-frequency oscillations in the human cardiovascular system / A.S. Karavaev, Prokhorov, VI. Ponomarenko [et al.]//Chaos. 2009. Vol. 19. P. 033112.
60.  Sutarto M.D. A.P Abdul Wahab M.N., Mat Zin N. Heart Rate Variability (HRV) biofeedback: A new training approach for operator's performance enhancement // Journal of Industrial Engineering and Management. 2010. Vol. 3, iss. 1. P. 176-198.
61.  Ocenka na osnove opredelenija sinhronizacii nizkochastotnyh ritmov dinamiki vegetativnoj reguljacii serdechno-sosudistoj sistemy pri primenenii metoprolola u bol'nyh IBS, perenesshih infarkt miokarda /A.R. Kiselev, V.I. Gridnev, O.M. Posnenkova [i dr.] // Terapevticheskij arhiv. 2007. T. 79, № 4. S. 23-31.
62. Ocenka pjatiletnego riska letal'nogo ishoda i razvitija serdechno-sosudistyh sobytij u pacientov s ostrym infarktom miokarda na osnove sinhronizacii 0,1 Gc-ritmov v serdechno-sosudistoj sisteme / A.R. Kiselev, V.I. Gridnev, A.S. Karavaev [i dr.] // Saratovskij nauchno-medicinskij zhurnal. 2010. T. 6, № 2. S. 328-338.

201101_034-039.pdf296.38 KB

No votes yet