Mechanisms of Cough Syncope as Evaluated by Valsalva Maneuver

A‐Ching Chao; Ruey‐Tay Lin; Ching‐Kuan Liu; Pao‐Yu Wang; Hung‐Yi Hsu

doi:10.1016/S1607-551X(09)70375-4

. 2009 Jul 14;23(2):55–62. doi: 10.1016/S1607-551X(09)70375-4

Mechanisms of Cough Syncope as Evaluated by Valsalva Maneuver

A‐Ching Chao ^1,², Ruey‐Tay Lin ^1,², Ching‐Kuan Liu ^1,², Pao‐Yu Wang ³, Hung‐Yi Hsu ^3,^✉

PMCID: PMC11917600 PMID: 17339166

Abstract

Successful treatment of cough syncope depends on the correction of various pathogenetic mechanisms among different patients. The valsalva maneuver (VM), which elicits hemodynamic responses mimicking coughs, has potential for investigating the individual pathogenesis of cough syncope. Eighteen consecutive patients suffering from cough‐induced syncope were examined. All patients were asked to cough and to perform VM several times under continuous cerebral blood‐flow velocity and blood pressure (BP) monitoring by transcranial Doppler and finger plethysmography. Eight patients demonstrated abnormal VM characterized by the absent BP overshoot following the relief of straining. Patients demonstrating abnormal VM had delayed BP recovery after cough (median, 16.4; range, 8.7–25.6 seconds) compared to those demonstrating normal VM (2.6, 1.3–3.8 seconds, p < 0.001). Seven of the 10 patients exhibiting normal BP overshoot during VM had stenotic arterial lesions in the cerebral or coronary circulation, whereas only one of the eight patients demonstrating absent BP overshoot had coronary artery disease (70% vs. 12.5%, p = 0.025). Other clinical profiles, body mass index, frequency of obstructive pulmonary disease and valsalva ratio did not differ between patients featuring normal and absent BP overshoot. In conclusion, the pathogenesis of cough syncope could be different between patients with normal and abnormal VM responses. Patients who had no BP overshoot during VM sustained prolonged hypotension after cough. The VM helps in discriminating among pathogenic mechanisms and guiding investigation and treatment for cough syncope patients.

Keywords: cough syncope, hypotension, intrathoracic pressure, valsalva maneuver

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References

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[bib2] 2. Sharpey‐Schafer EP. The mechanism of syncope after coughing. Br Med J. 1953; 4841: 860–863. [DOI] [PMC free article] [PubMed] [Google Scholar]

[bib3] 3. Benditt DG, Samniah N, Pham S, et al. Effect of cough on heart rate and blood pressure in patients with “cough syncope”. Heart Rhythm. 2005; 2: 807–813. [DOI] [PubMed] [Google Scholar]

[bib4] 4. Mattle HP, Nirkko AC, Baumgartner RW, et al. Transient cerebral circulatory arrest coincides with fainting in cough syncope. Neurology. 1995; 45: 498–501. [DOI] [PubMed] [Google Scholar]

[bib5] 5. McIntosh HD, Estes EH, Warren JV. The mechanism of cough syncope. Am Heart J. 1956; 52: 70–82. [DOI] [PubMed] [Google Scholar]

[bib6] 6. Desser KB, Harris CL, Benchimol A. Carotid blood velocity during cough studies in man. Stroke. 1976; 7: 416–418. [DOI] [PubMed] [Google Scholar]

[bib7] 7. McCann WS, Bruce RA. Tussive syncope; observations on the disease formerly called laryngeal epilepsy, with report of two cases. Arch Med Interna. 1949; 84: 845–856 [Illustration]. [DOI] [PubMed] [Google Scholar]

[bib8] 8. Lee D, Beldner S, Pollaro F, et al. Cough‐induced heart block. Pacing Clin Electrophysiol. 1999; 22: 1270–1271. [DOI] [PubMed] [Google Scholar]

[bib9] 9. Kerr A Jr, Derbes VJ. The syndrome of cough syncope. Ann Intern Med. 1953; 39: 1240–1253. [DOI] [PubMed] [Google Scholar]

[bib10] 10. Low PA. Autonomic nervous system function. J Clin Neurophysiol. 1993; 10: 14–27. [DOI] [PubMed] [Google Scholar]

[bib11] 11. Low PA. Laboratory evaluation of autonomic function. In Low PA, ed. Clinical Autonomic Disorders: Evaluation and Management. Philadelphia: Lippincott‐Raven. 1997, 179–208. [Google Scholar]

[bib12] 12. Porth CJ, Bamrah VS, Tristani FE, et al. The valsalva maneuver: mechanisms and clinical implications. Heart Lung. 1984; 13: 507–518. [PubMed] [Google Scholar]

[bib13] 13. Nishimura RA, Tajik AJ. The valsalva maneuver and response revisited. Mayo Clin Proc. 1986; 61: 211–217. [DOI] [PubMed] [Google Scholar]

[bib14] 14. Ferrer MT, Kennedy WR, Sahinen F. Baroreflexes in patients with diabetes mellitus. Neurology. 1991; 41: 1462–1466. [DOI] [PubMed] [Google Scholar]

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[bib16] 16. Mills H, Kattus AA Jr. The emphysema response to forced straining (valsalva's maneuver). Circulation. 1958; 17: 65–71. [DOI] [PubMed] [Google Scholar]

[bib17] 17. Zema MJ, Masters AP, Margouleff D. Dyspnea: the heart or the lungs? Differentiation at bedside by use of the simple valsalva maneuver. Chest. 1984; 85: 59–64. [DOI] [PubMed] [Google Scholar]

[bib18] 18. Hausknecht MJ, Wise RA, Brower RG, et al. Effects of lung inflation on blood flow during cardiopulmonary resuscitation in the canine isolated heart‐lung preparation. Circ Res. 1986; 59: 676–683. [DOI] [PubMed] [Google Scholar]

[bib19] 19. Martin J, Jardim J, Sampson M, et al. Factors influencing pulsus paradoxus in asthma. Chest. 1981; 80: 543–549. [DOI] [PubMed] [Google Scholar]

[bib20] 20. Obermiller T, Lakshminarayan S, Willoughby S, et al. Influence of lung volume and alveolar pressure on reverse pulmonary venous blood flow. J Appl Physiol. 1992; 73: 195–199. [DOI] [PubMed] [Google Scholar]

[bib21] 21. Scharf SM. Cardiovascular effects of airways obstruction. Lung. 1991; 169: 1–23. [DOI] [PubMed] [Google Scholar]

[bib22] 22. Santamore WP, Heckman JL, Bove AA. Right and left ventricular pressure‐volume response to respiratory maneuvers. J Appl Physiol. 1984; 57: 1520–1527. [DOI] [PubMed] [Google Scholar]

[bib23] 23. Little WC, Barr WK, Crawford MH. Altered effect of the valsalva maneuver on left ventricular volume in patients with cardiomyopathy. Circulation. 1985; 71: 227–233. [DOI] [PubMed] [Google Scholar]

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[bib25] 25. Morrison NJ, Abboud RT, Muller NL, et al. Pulmonary capillary blood volume in emphysema. Am Rev Respir Dis. 1990; 141: 53–61. [DOI] [PubMed] [Google Scholar]

[bib26] 26. Sandroni P, Benarroch EE, Low PA. Pharmacological dissection of components of the valsalva maneuver in adrenergic failure. J Appl Physiol. 1991; 71: 1563–1567. [DOI] [PubMed] [Google Scholar]

[bib27] 27. Linzer M, McFarland TA, Belkin M, et al. Critical carotid and vertebral arterial occlusive disease and cough syncope. Stroke. 1992; 23: 1017–1020. [DOI] [PubMed] [Google Scholar]

[bib28] 28. Singer W, OpferGgehrking TL, McPhee BR, et al. Influence of posture on the valsalva manoeuvre. Clin Sci (Lond). 2001; 100: 433–440. [PubMed] [Google Scholar]

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Mechanisms of Cough Syncope as Evaluated by Valsalva Maneuver

A‐Ching Chao

Ruey‐Tay Lin

Ching‐Kuan Liu

Pao‐Yu Wang

Hung‐Yi Hsu

Abstract

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Mechanisms of Cough Syncope as Evaluated by Valsalva Maneuver

A‐Ching Chao

Ruey‐Tay Lin

Ching‐Kuan Liu

Pao‐Yu Wang

Hung‐Yi Hsu

Abstract

Full Text

References

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