Improved Ventricular Repolarisation with Long-Term Continuous Positive Airway Pressure in Heart Failure Patients with Obstructive Sleep Apnoea

A Prospective Randomised Controlled Trial

Authors

  • Matthew P. Gilman School of Medicine, Trinity College, University of Dublin, Ireland; The Toronto Rehabilitation Institute
  • Han Kim The Toronto Rehabilitation Institute
  • Roberta Hood The Toronto Rehabilitation Institute
  • Vijay S. Chauhan The Toronto General Hospital/University Health Network
  • Thomas D. Bradley The Toronto Rehabilitation Institute; The Toronto General Hospital/University Health Network; The Centre for Sleep Medicine and Circadian Biology, University of Toronto, Toronto, Ontario, Canada

Keywords:

Medicine

Abstract

Background: Obstructive sleep apnoea (OSA) has a high prevalence in patients with congestive heart failure (CHF) and contributes to its progression. Periodic obstructive events subject the heart to recurrent episodes of nocturnal hypoxia and harmful effects on the autonomic nervous system, which can predispose the heart to ventricular arrhythmias. It has been shown that treatment with continuous positive airway pressure (CPAP) can improve cardiac and autonomic function in CHF patients with OSA. These improvements include increased left ventricular ejection fraction (LVEF), an increase in vagal tone, and a decrease in sympathetic drive. As autonomic tone, hypoxia, and afterload are known to modulate ventricular repolarisation (which is a determinant of malignant ventricular arrhythmias in heart failure patients), in this study we hypothesised that CPAP would improve ventricular repolarisation. The temporal lability of ventricular repolarisation can be measured using beat-to-beat QT variability (QTVI).
Methods: Eighteen patients with CHF (LVEF <45%) and OSA (apnoeas and hypopnoeas index (AHI) ≥20) underwent baseline polysomnography and echocardiography. QTVI was assessed from an electrocardiographic lead I during stage 2 sleep. The patients were then randomised to a control group (N=7, AHI=45.0 ± 15.0), or a CPAP treated group (N=11, AHI=40.2 ± 22.8) for one month, after which the above protocol was repeated.
Results: OSA was unchanged in the control group, but was alleviated in the CPAP group. The control group did not experience any significant changes in QTVI. In contrast, the CPAP treated group experienced a significant decrease in QTVI after one month (-0.37 ± 0.82 to -0.91 ± 0.55, P=0.006). This decrease in QTVI was significantly different between the two groups (P=0.021).
Conclusions: These findings indicate that in patients with CHF, treatment of coexisting OSA by CPAP improves ventricular repolarisation, which could reduce the risk of malignant arrhythmias.

References

1. Irish Heart Foundation. Facts on Heart Disease and Stroke. Dublin, Ireland: Irish Heart Foundation (Also available at http://www.irishheart.ie)
2. Sheahan RG. Biventricular Pacing and Congestive Heart Failure. HeartWise. Jan 2003;12-6
3. Javaheri S, Parker TJ, Liming JD, Corbett WS et al. Sleep apnea in 81 ambulatory male patients with stable heart failure. Types and their prevalences, consequences, and presentations. Circulation. 1998;91:2154-9
4. Sin DD, Fitzgerald F, Parker JD, Newton G, Floras JS, Bradley TD. Risk factors for central and obstructive sleep apnea in 450 men and women with congestive heart failure. Am. J. Respir. Crit. Care Med. 1999;160:1101-6
5. Hall MJ, Ando SI, Floras JS, Bradley TD. Magnitude and time course of haemodynamic responses to Mueller maneuvers in patients with congestive heart failure. J. Appl. Physiol. 1998;85:1476-84
6. Somers VK. To sleep, perchance to breathe. Implications for the failing heart. Am. J. Respir. Crit. Care Med. 1999;160:1101-6
7. Leung RST, Bradley TD. Sleep apnea and cardiovascular disease. Am. J. Respir. Crit. Care Med. 2001;163:19-25
8. Narkiewicz K, Montano N, Cogliati C, van de Borne PJ, Dyken ME, Somers VK. Altered cardiovascular variability in obstructive sleep apnea. Circulation. 1998;98:1071-77
9. Roche F, Gaspoz J, Court-Fortune I et al. Alteration of QT rate dependence reflects cardiac autonomic imbalance in patients with obstructive sleep apnea. P.A.C.E. 2003;26(part 1):1446-53
10. Schwartz PJ, La Rovere MT Vanoli I. Autonomic nervous system and sudden cardiac death. Experimental basis and clinical observations for post-myocardial
infarction risk stratification. Circulation. 1992;85:177-91
11. Kaneko Y, Floras JS, Usui K et al. Cardiovascular effects of continuous positive airway pressure in patients with heart failure and obstructive sleep apnea. N. Engl. J. Med. 2003;348:1233-41
12. Tkacova R, Rankin F, Fitzgerald F, Floras JS, Bradley TD. Effects of continuous positive airway pressure on obstructive sleep apnea and left ventricular afterload in patients with heart failure. Circulation. 1998;98:2269-75
13. Tkacova R, Dajani HR, Rankin F, Fitzgerald FS, Floras JS, Bradley TD. Continuous positive airway pressure improves nocturnal baroreflex sensitivity of patients with heart failure and obstructive sleep apnea. Hypertens. 2000;18:1257-62 14. Atiga WL, Calkins H, Lawrence JH et al. Beat-to-beat repolarisation lability identifies patients at risk for sudden cardiac death. J. Cardiovasc. Electrophysiol. 2000;9:899-908
15. Berger RD, Kasper EK, Baughman KL, Marban E, Calkins H Tomaselli GF. Beat- to-beat QT interval variability: novel evidence for repolarisation lability in ischemic and nonischemic dilated cardiomyopathy. Circulation. 1997;96:1557-65
16. Pellerin D, Maison-Blanche P, Extramiana F et al. Autonomic influences on ventricular repolarisation in congestive heart failure. J. Electrocardio.l 2001;34:35-40. 17. Piccirillo G, Germano G, Quaglione R et al. QT-interval variability and autonomic control in hypertensive subjects with left ventricular hypertrophy. Clin. Sci. 2002;102:363-71
18. Franklin KA, Nilsson JB, Sahlin C, Naslund U. Sleep apnoea and nocturnal angina. Lancet. 1995;345:1085-7
19. Murabayashi T, Fetics B, Kass D, Nevo E, Gramatikov B, Berger RD. Beat-to- beat QT interval variability associated with acute myocardial ischemia. J. Electrocardiol. 2002;35:19-25
20. Zhang Y, Hzong N, Zhou ZN. Effects of intermittent hypoxia on action potential and contraction in non-ischemic and ischemic rat papillary muscle. Life Sci. 2000;67: 2465-71
21. Rechtschaffen A, Kales A. A manual of standardized terminology, techniques and scoring system for sleep stages of human subjects. Los Angeles, CA: UCLA Brain Information Service/ Brain Research Institute, 1968
22. Schiller NB, Shah PM, Cawford M et al. Recommendations for quantitation of the left ventricle by two-dimensional echocardiography. J. Am. Soc. Echocardiogr. 1989;2:358-67
23. Bethell HWL, Vandenberg JI, Smith GA et al. Changes in ventricular repolarisation during acidosis and low-flow ischemia. Am. J. Physiol. 1998;265:H551. 24. Yeragani VK, Pohl R, Jampala VC, Balon R, Ramesh C (2000). Effect of age on QT variability. Pediatr. Cardiol. 21:411-5
25. Piccirillo G, Quaglione R, Nocco M et al. Effects of long-term beta-blocker (metoprolol or carvedilol) therapy on QT variability in subjects with chronic heart failure secondary to ischemic cardiomyopathy. Am. J. Cardiol. 2002;90:1113-7
26. Hedner J, Darpo B, Ejnell H, Carlson J, Caidahl K. Reduction in sympathetic activity after long-term CPAP treatment in sleep apnoea: cardiovascular implications. Eur. Respir. J. 1995;8:222-9
27. Kaye DM, Mansfield D, Aggarwal A, Naughton MT, Esler MD. Acute effects of continuous positive airway pressure on cardiac sympathetic tone in congestive heart failure. Circulation. 2001;103:2336-8
28. Narkiewicz K, Kato M, Phillips BG, Pesek CA, Davison DE, Somers VK. Nocturnal continuous positive airway pressure decreases daytime sympathetic traffic in obstructive sleep apnea. Circulation. 1999;100:2332-5
29. Somers VK, Dyken ME, Clary MP, Abboud FM. Sympathetic neural mechanisms in obstructive sleep apnea. J. Clin. Ivest. 1995;96:1897-1904
30. Butler GC, Naughton MT, Rahman MA et al. Continuous positive airway pressure increases heart rate variability in congestive heart failure. J. Am. Coll. Cardiol. 1995;5:672-9
31. Khoo MCK, Kim T, Berry RB. Spectral indices of cardiac autonomic function in obstructive sleep apnea. Sleep. 1999;22:443-51
32. Roche F, Court-Fortune I, Pichot V et al. Reduced cardiac sympathetic autonomic tone after long-term nasal continuous positive airway pressure in obstructive sleep apnoea syndrome. Clin. Physiol. 1999;19:127-34

Downloads

Published

2008-01-01

How to Cite

Gilman, M. P., Kim, H., Hood, R., Chauhan, V. S., & Bradley, T. D. (2008). Improved Ventricular Repolarisation with Long-Term Continuous Positive Airway Pressure in Heart Failure Patients with Obstructive Sleep Apnoea: A Prospective Randomised Controlled Trial. Trinity Student Medical Journal , 9(1), Page 8–12. Retrieved from https://ojs.tchpc.tcd.ie/index.php/tsmj/article/view/1882

Issue

Vol. 9 No. 1 (2008): Trinity Student Medical Journal

Section

Research

License

Authors retain copyright and grant the journal the right of first publication with the work simultaneously licensed under a Creative Commons Attribution (CC-BY) 4.0 License that allows others to share the work with an acknowledgement of the work’s authorship and initial publication in this journal.

Provided they are the owners of the copyright to their work, authors are able to enter into separate, additional contractual arrangements for the non-exclusive distribution of the journal’s published version of the work (e.g., post it to an institutional repository, in a journal or publish it in a book), with an acknowledgement of its initial publication in this journal.

Similar Articles

1 2 3 4 5 6 7 8 9 10 > >> 

You may also start an advanced similarity search for this article.