Top

Published in:

01-08-2008 | REVIEW ARTICLE

The origin of vasovagal syncope: to protect the heart or to escape predation?

Authors: Dr. Paolo Alboni, Marco Alboni, Giorgio Bertorelle

Published in: Clinical Autonomic Research | Issue 4/2008

Abstract

Major lines of evidence suggest that classical (emotional and orthostatic) vasovagal syncope (VVS) is not a disease, but rather a manifestation of a non-pathological trait. It is, therefore, reasonable to investigate the possible factors that may explain its origin and evolution. We reviewed the data available in the literature on the vasovagal reaction in humans and animals in order to identify possible similarities that might provide insight into the evolution of VVS. We found two processes which appear relevant to the investigation of VVS evolution: fear and threat bradycardia in animals, and the vasovagal reflex during hemorrhagic shock in humans and animals. We suggest that VVS in humans involves physiological mechanisms similar to those found in other vertebrates, and that this may indicate a common evolutionary root. The available data seem to suggest that VVS evolved as an advantageous response to inescapable predators or to stressful and possibly dangerous heart conditions. The inhibition of the sympathetic system, together with activation of the vagal system, characterizes VVS. The consequent slowing of the heart rate induced by VVS may constitute a beneficial break of the cardiac pump, thereby reducing myocardial oxygen consumption. We suggest that classical VVS did not evolve recently in the modern human lineage; rather, it should be regarded as a selected response, which probably evolved in the ancient past as a “defense mechanism” of the organism within some ancestral group(s) of vertebrates.

Abboud FM (1989) Ventricular syncope: is the heart a sensory organ? N Engl J Med 320:390–392PubMed

Accurso V, Winnicki M, Shamsuzzman ASM, Wenzel A, Johnson AK, Somers VK (2001) Predisposition to vasovagal syncope in subjects with blood/injury phobia. Circulation 104:903–917PubMedCrossRef

Adams DB, Baccelli G, Mancia G, Zanchetti A (1968) Cardiovascular changes during preparation for fighting behaviour in the cat. Nature 220:1239–1240PubMedCrossRef

Alboni P, Bondanelli M, Dinelli M, Gruppillo P, Franceschetti P, Marchi P, degli Uberti EC (2000) Role of the serotoninergic system in the genesis of vasovagal syncope. Europace 2:172–180PubMedCrossRef

Alboni P, Brignole M, Menozzi C, Raviele A, Del Rosso A, Dinelli M, Solano A, Bottoni N (2001) Diangostic value of history in patients with syncope with or without heart disease. J Am Coll Cardiol 37:1921–1928PubMedCrossRef

Alboni P, Brignole M, degli Uberti EC (2007) Is vasovagal syncope a disease? Europace 9:83–87PubMedCrossRef

Alexander RM (1991) Characteristics and advantages of human bipedalism. In: Rayer JMV, Wootton RJ (eds) Biomechanics in evolution. Cambridge University Press, Cambridge, pp 255–266

Benditt DG (1997) Neurally mediated syncopal syndromes: pathophysiological concepts and clinical evaluation. Pacing Clin Electrophysiol 20:572–584PubMedCrossRef

Bracha HS, Bracha AS, Williams AE, Ralston TC, Matsukawa JM (2005) The human fear-circuitry and fear-induced fainting in healthy individuals. The paleolithic-threat hypothesis. Clin Auton Res 15:238–241PubMedCrossRef

10.

Brignole M, Alboni P, Benditt DG, Bergfeldt L, Blanc JJ, Bloch Thomsen PE, van Dijk JG, Fitzpatrick A, Hohnloser S, Janousek J, Kapoor W, Kenny RA, Kulakowski P, Masotti G, Moya A, Raviele A, Sutton R, Theodorakis G, Ungar A, Wieling W (2004) Guidelines on management (diagnosis and treatment) of syncope—update 2004. Europace 6:467–537PubMedCrossRef

11.

Brignole M, Menozzi C, Gianfranchi L, Oddone D, Lolli G, Bertulla A (1991) Carotid sinus massage, eyeball compression and head-up tilt test in patients with syncope of uncertain origin and in healthy control subjects. Am Heart J 122:1644–1651PubMedCrossRef

12.

Burke SL, Dorward PK (1988) Influence of endogenous opiates and cardiac afferents on renal nerve activity during haemorrhage in conscious rabbits. J Physiol Lond 402:9–27PubMed

13.

Casonato A, Pontara E, Bertomoro A, Cattini MG, Soldera C, Girolami A (2003) Fainting induces an acute increase in the concentration of plasma factor VIII and von Willebrand factor. Haematologica 88:688–693PubMed

14.

Chalmers JP, Corner PI, White SW (1967) Effects of hemorrhage on the distribution of blood flow in the rabbit. J Physiol Lond 192:561–574PubMed

15.

Chosy JJ, Graham DT (1965) Catecholamines in vasovagal fainting. J Psychosom Res 9:1891–1894

16.

Colman N, Nahm K, Ganzeboom KS, Shen WK, Reitsma JB, Linzer M, Wieling W, Kaufmann H (2004) Epidemiiology of reflex syncope. Clin Autom Res 14:9–17CrossRef

17.

Darwin C (1900) A posthumous essay on instinct. In: Romanes GJ (ed) Mental evolution in animals. Appleton, New York

18.

Diehl RR (2005) Vasovagal syncope and Darwinian fitness. Clin Auton Res 15:126–129PubMedCrossRef

19.

Djojosugito AM, Folkow B, Kowach AGB (1968) The mechanisms behind the rapid blood volume restoration after hemorrhage in birds. Acta Physiol Scand 74:114–122PubMed

20.

Dorward PK, Riedel KW, Burke J, Gipps J, Korner PI (1985) The renal sympathetic baroreflex in the rabbit: arterial and cardiac baroceptor influences, resetting, and effect of anesthesia. Circ Res 57:618–633PubMed

21.

Espmark Y, Langvatn R (1979) Cardiac responses in alarmed red deer calves. Behav Process 4:179–186CrossRef

22.

Forsyth RP, Hoffbrand BI, Melmon KL (1970) Redistribution of cardiac output during hemorrhage in the unanesthetized monkey. Circ Res 27:311–320PubMed

23.

Gabrielsen G, Kanwisher JW, Steen JB (1977) “Emotional” bradycardia: a telemetry study on incubating willow grouse (Lagopus lagopus). Acta Physiol Scand 100:255–257PubMed

24.

Gabrielsen GW, Smith EN (1985) Physiological responses associated with feigned death in the American opossum. Acta Physiol Scand 123:393–398PubMed

25.

Gallup GG Jr (1974) Animal hypnosis: factual status of a fictional concept. Psycho Bull 81:836–853CrossRef

26.

Ganzeboom KS, Colman N, Reitsma JB, Shen WK, Wieling W (2003) Prevalence and triggers of syncope in medical students. Am J Cardiol 91:1006–1008PubMedCrossRef

27.

Gaunt AS, Gans C (1969) Diving bradycardia and withdrawal bradycardia in caiman crocodilus. Nature 223:207–218PubMedCrossRef

28.

Goldstein DS, Spanarkel M, Pitterman A, Toltziz G, Gratz E, Epstein S, Keiser HR (1982) Circulatory control mechanisms in vasodepressor syncope. Am Heart J 104:1071–1075PubMedCrossRef

29.

Goodman DA, Weinberger NM (1970) Possible relationship between orienting and diving reflexes. Nature 225:1153–1155PubMedCrossRef

30.

Henning CW (1978) Tonic immobility in the squirrel monkey (Saimiri sciures). Primates 19:333–342CrossRef

31.

Hoagland H (1928) On the mechanism of tonic immobility (“animal hypnosis”). J Gen Physiology 1:426–477

32.

Hofer MA (1970) Cardiac and respiratory function during sudden prolonged immobility in wild rodents. Phychosom Med 32:633–647

33.

Hohnnke L (1975) Regulation of arterial blood pressure in the common green iguana. Am J Physiol 228:386–391

34.

Jacobsen NK (1979) Alarm bradycardia in white-tailed deer fawns (Odocoileus virginianus). J Mamm 60:343–349CrossRef

35.

Jardine DL, Melton IC, Crozier JG, English S, Bennett SI, Frampton CN, Ikram AH (2002) Decrease in cardiac output and muscle sympathetic activity during vasovagal syncope. Am J Physiol Heart Circ Physiol 282:H1804–H1809PubMed

36.

Kanwisher JK, Lawson K, Sundnes G (1974) Acoustic telemetry from fish. Fisheries Bull 72:251–255

37.

Kapoor WN, Bront N (1992) Evaluation of syncope by upright tilt test with isoproterenol: a nonspecific test. Ann Intern Med 116:358–363PubMed

38.

Kenny RA, Neil E (1951) The contribution of aortic chemoreceptor mechanisms to the maintenance of arterial blood pressure of cats and dogs after hemorrhage. J Physiol Lond 112:223–228

39.

Klemm WR (1971) Neurophysiologic studies of the immobility reflex (“animal hypnosis”). Neurosci Res (NY) 4:165–212

40.

Kovach AGB, Srasz E (1968) Survival of pigeon after graded haemorrhage. Acta Physiol Acad Sci Hung 34:301–309PubMed

41.

Lang PJ, Greenwald MK, Bradley MM, Hamm AO (1993) Looking at pictures: affective, facial, visceral, and behavioral reactions. Psychophysiology 30:261–273PubMedCrossRef

42.

Levi M (2005) Vasovagal fainting as an evolutionary remnant of the fight against hemorrhage. Clin Auton Res 15:69–70PubMedCrossRef

43.

Liberson WT, Smith RW, Stern A (1961) Experimental studies of the prolonged “hypnotic withdrawal” in guinea pigs. J Neuropsychiatry 3:28–34

44.

Lillywhite HB, Smith LH (1981) Haemodynamic responses to haemorrhage in the snake, Elaphe obsoleta obsoleta. J Exp Biol 94:275–283

45.

Ludbrook J, Patocnik SJ, Woods RL (1988) Simulation of acute haemorrhage in unanesthetized rabbits. Clin Exp Pharmacol Physiol 15:575–584PubMedCrossRef

46.

Ludewig K, Ludewig S, Seitz A, Obrist M, Geyer MA, Vollenweider FX (2003) The acoustic startle reflex and its modulation: effects of age and gender in humans. Biol Psych 63:311–323CrossRef

47.

McIntosh SJ, Lawson J, Kenny RA (1993) Clinical characteristics of vasodepressor, cardioinhibitory and mixed caortid sinus syndrome in the elderly. Am J Med 95:203–208PubMedCrossRef

48.

Meck JV, Waters WW, Ziegler MG, deBlock HF, Mills PJ, Robertson D, Huang PL (2004) Mechanisms of postspaceflight orthostatic hypotension low α1-adrenergic receptor responses before flight and central autonomic dysregulation postflight. Am J Physiol Heart Circ Physiol 286:H1486–H1495PubMedCrossRef

49.

Morgan DA, Thoren P, Wilczysnsky EA, Victor RG, Mark AL (1988) Serotonergic mechanisms mediate moderate renal sympathoinhibition during severe hemorrhage in rats. Am J Physiol 255:H496–H502PubMed

50.

Morita H, Nishida Y, Motochigawa H, Uemura N, Hosomi H, Vatner SF (1988) Opiate receptor-mediated decrease in renal nerve activity during hypotensive hemorrhage in conscious rabbits. Circ Res 63:165–172PubMed

51.

Natale A, Akhtar M, Jazayeri M, Dhala A, Blanck Z, Deshpande S, Krebs A, Sra JS (1995) Provocation of hypotension during head-up tilt testing in subjects with no history of syncope or presyncope. Circulation 92:54–58PubMed

52.

Öberg B, White S (1970) The role of vagal cardiac nerves and arterial baroceptors in the circulatory adjustments to hemorrhage in the cat. Acta Physiol Scand 80:385–403

53.

Powell DA, Kazis E (1976) Blood pressure and heart rate changes accompanying classical eyeblink conditioning in the rabbit (Oryctolagus cuniculus). Psychophysiology 13:441–447PubMedCrossRef

54.

Roberts I, Evans P, Bunn F, Kwan I, Crowhurst E (2001) Is the normalization of blood pressure in bleeding trauma patients harmful? Lancet 357:385–387PubMedCrossRef

55.

Robinson BJ, Johnson RH (1988) Why does vasodilatation occur during syncope? Clin Sci 74:347–350PubMed

56.

Sanchez-Navarro JP, Martinez-Selva JM, Roman F (2006) Uncovering the relationship between defence and orienting in emotion: cardiac reactivity to unpleasant pictures. Int J Psychophysiol 61:34–46PubMedCrossRef

57.

Sander-Jensen K, Secher NH, Bie P, Warberg J, Schwartz TW (1986) Vasal slowing of the heart during hemorrhage: observations from 20 consecutive hypotensive patients. Br Med J 292:364–366CrossRef

58.

Sanders JS, Ferguson DW (1989) Profound sympathoinhibition complicating hypovolemia in humans. Ann Intern Med 111:439–441PubMed

59.

Schadt JC, Gaddis RR (1985) Endogenous opiate peptides may limit norepinephrine release during hemorrhage. J Pharmacol Exp Ther 232:656–660PubMed

60.

Schadt JC, Ludbrook AJ (1991) Hemodynamic and neurohumoral responses to acute hypovolemia in conscious mammals. Am J Physiol Heart Circ Physiol 260:H305–H318

61.

Sebastiani LD, Salomone P, Silvestri A, Simoni A, Ghelarducci B (1994) Development of fear-related responses in neonatal rabbits. J Auton Nerv Syst 50:231–238PubMedCrossRef

62.

Sergeant AB, Eberhardt LE (1975) Death feigning by ducks in response to predation by red foxes (Vulpes fulva). Am Midl Nat 94:108–119CrossRef

63.

Sheldon RS, Sheldon AG, Connolly SJ, Morillo CA, Klingenheben T, Krahn AD, Koshman ML, Ritchie D (2006) Age of first faint in patients with vasovagal syncope. J Cardiovasc Electrophysiol 17:49–54PubMedCrossRef

64.

Sheldon RS, Wright CI, Duff HJ, Thakore E, Gills AM, Roach DE (2007) Mechanism of hypotensive transients associated with abrupt bradycardias in conscious rabbits. Can J Cardiol 23:721–726PubMed

65.

van Dijk JG (2003) Fainting in animals. Clin Auton Res 13:247–255PubMedCrossRef

66.

van Lieshout JJ, Wieling W, Karemaker JM, Eckberg DL (1991) The vasovagal response. Clin Sci 81:575–586PubMed

67.

Victor RG, Thoren P, Morgan DA, Mark AL (1989) Differential control of adrenal and renal sympathetic nerve activity during hemorrhagic hypotension in rats. Circ Res 64:686–694PubMed

68.

Vingerhoets AJJM (1984) Biochemical changes in two subjects succumbing to syncope. Psychosom Med 46:95–103PubMed

69.

Wallin BG, Sundlöf G (1982) Sympathetic outflow to muscle during vasovagal syncope. J Auton Nerv Syst 6:287–291PubMedCrossRef

70.

Waxman MB, Asta JA, Cameron DA (1992) Localization of the reflex pathway responsible for the vasodepressor reaction induced by inferior vena cava occlusion and isoproterenol. Can J Physiol Pharmacol 70:882–889PubMed

71.

Williams RB, Bittker TE, Buchsbaum MS, Wynne LC (1975) Cardiovascular and neurophysiologic correlates of sensory intake and rejection. I. Effects of cognitive tasks. Psychophysiology 12:427–433PubMedCrossRef

72.

Zimmer H, Vossel G, Fröhlich WD (1990) Individual differences in resting heart rate and spontaneous electrodermal activity as predictors of attentional processes: effects on anticipatory heart rate deceleration and task performance. Int J Psychophysiol 8:249–259PubMedCrossRef

Title: The origin of vasovagal syncope: to protect the heart or to escape predation?
Authors: Dr. Paolo Alboni
Marco Alboni
Giorgio Bertorelle
Publication date: 01-08-2008
Publisher: D. Steinkopff-Verlag
Published in: Clinical Autonomic Research / Issue 4/2008
Print ISSN: 0959-9851
Electronic ISSN: 1619-1560
DOI: https://doi.org/10.1007/s10286-008-0479-7

Keynote webinar | Spotlight on medication adherence

Springer Medicine

The origin of vasovagal syncope: to protect the heart or to escape predation?

Abstract

Keynote webinar | Spotlight on medication adherence

Springer Medicine

Abstract

Please log in to get access to this content

Other articles of this Issue 4/2008

Optimizing squatting as a physical maneuver to prevent vasovagal syncope

Research highlights from the literature

Is there any point to vasovagal syncope?

Pilot study of pyridostigmine in constipated patients with autonomic neuropathy

Evaluation of autonomic malfunction in idiopathic normal pressure hydrocephalus

Is fatigue in Marfan syndrome related to orthostatic intolerance?