Heart failure treatment: Keeping up with best practices

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Applied Evidence

Heart failure treatment: Keeping up with best practices

J Fam Pract. 2018 January;67(1):18-26

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From The Journal of Family Practice | 2018;67(1):18-26.

References

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6. Yancy CW, Jessup M, Bozkurt B, et al. 2016 ACC/AHA/HFSA Focused Update on New Pharmacological Therapy for Heart Failure: An Update of the 2013 ACCF/AHA Guideline for the Management of Heart Failure. J Am Coll Cardiol. 2016;68:1476-1488.

7. Ponikowski P, Voors AA, Anker SD, et al. 2016 ESC Guidelines for the diagnosis and treatment of acute and chronic heart failure: The Task Force for the diagnosis and treatment of acute and chronic heart failure of the European Society of Cardiology (ESC). Developed with the special contribution of the Heart Failure Association (HFA) of the ESC. Eur Heart J. 2016;37:2129-2200.

8. Pinkerman CP, Sander JE, Breeding D, et al. Institute for Clinical Systems Improvement. Heart failure in adults. Available at: https://www.scribd.com/document/310893227/HeartFailure-pdf. Accessed December 6, 2017.

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11. Heart Failure Society of America, Lindenfeld J, Albert NM, et al. HFSA 2010 Comprehensive Heart Failure Practice Guideline. J Card Fail. 2010;16:e1-194.

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13. Maggioni AP, Anand I, Gottlieb SO, et al. Effects of valsartan on morbidity and mortality in patients with heart failure not receiving angiotensin-converting enzyme inhibitors. J Am Coll Cardiol. 2002;40:1414-1421.

14. Effect of metoprolol CR/XL in chronic heart failure: Metoprolol CR/XL Randomised Intervention Trial in Congestive Heart Failure (MERIT-HF). Lancet. 1999;353:2001-2007.

15. Poole-Wilson PA, Swedberg K, Cleland JG, et al. Comparison of carvedilol and metoprolol on clinical outcomes in patients with chronic heart failure in the Carvedilol Or Metoprolol European Trial (COMET): randomised controlled trial. Lancet. 2003;362:7-13.

16. Gehr TW, Sica DA. Pharmacotherapy in congestive heart failure: Hyperkalemia in congestive heart failure. Congest Heart Fail. 2001;7:97-100.

17. National Institute for Health and Clinical Excellence (NICE). Chronic heart failure in adults: management. 2010. Available at: https://www.nice.org.uk/guidance/cg108. Accessed November 27, 2017.

18. Barreras A, Gurk-Turner C. Angiotensin II receptor blockers. Proc (Bayl Univ Med Cent). 2003;16:123-126.

19. Epstein SE, Braunwald E. The effect of beta adrenergic blockade on patterns of urinary sodium excretion: studies in normal subjects and in patients with heart disease. Ann Intern Med. 1966;65:20-27.

20. Berbenetz NM, Mrkobrada M. Mineralocorticoid receptor antagonists for heart failure: systematic review and meta-analysis. BMC Cardiovasc Disord. 2016;16:246.

21. Taylor AL, Ziesche S, Yancy C, et al. Combination of isosorbide dinitrate and hydralazine in blacks with heart failure. N Engl J Med. 2004;351:2049-2057.

22. Kelly RA, Smith TW. Recognition and management of digitalis toxicity. Am J Cardiol. 1992;69:108G-118G.

23. Sundar S, Burma DP, Vaish SK. Digoxin toxicity and electrolytes: a correlative study. Acta Cardiol. 1983;38:115-123.

24. McDowell G, Nicholls DP. The endopeptidase inhibitor, candoxatril, and its therapeutic potential in the treatment of chronic cardiac failure in man. Expert Opin Investig Drugs. 1999;8:79-84.

25. Prenner SB, Shah SJ, Yancy CW. Role of angiotensin receptor-neprilysin inhibition in heart failure. Curr Atheroscler Rep. 2016;18:48.

26. McMurray JJ, Packer M, Desai AS, et al. Angiotensin-neprilysin inhibition versus enalapril in heart failure. N Engl J Med. 2014;371:993-1004.

27. Corlanor package insert. Amgen Inc., Thousand Oaks, CA. Available at: http://pi.amgen.com/~/media/amgen/repositorysites/pi-amgen-com/corlanor/corlanor_pi.pdf. Accessed November 28, 2017.

28. Swedberg K, Komajda M, Böhm M, et al. Ivabradine and outcomes in chronic heart failure (SHIFT): a randomised placebo-controlled study. Lancet. 2010;376:875-885.

29. Kusumoto FM, Calkins H, Boehmer J, et al. HRS/ACC/AHA expert consensus statement on the use of implantable cardioverter-defibrillator therapy in patients who are not included or not well represented in clinical trials. Circulation. 2014;130:94-125.

30. Leyva F, Nisam S, Auricchio A. 20 years of cardiac resynchronization therapy. J Am Coll Cardiol. 2014;64:1047-1058.

31. Epstein AE, DiMarco JP, Ellenbogen KA, et al. 2012 ACCF/AHA/HRS Focused Update Incorporated Into the ACCF/AHA/HRS 2008 Guidelines for Device-Based Therapy of Cardiac Rhythm Abnormalities. A Report of the American College of Cardiology Foundation/American Heart Association Task Force on Practice Guidelines and the Heart Rhythm Society. Circulation. 2013;127:e283-e352.

32. Borlaug BA, Paulus WJ. Heart failure with preserved ejection fraction: pathophysiology, diagnosis, and treatment. Eur Heart J. 2011;32:670-679.

33. Redfield MM. Heart failure with preserved ejection fraction. N Engl J Med. 2016;375:1868-1877.

34. Nanayakkara S, Kaye DM. Management of heart failure with preserved ejection fraction: a review. Clin Ther. 2015;37:2186-2198.

35. Cleland JG, Pellicori P, Dierckx R. Clinical trials in patients with heart failure and preserved left ventricular ejection fraction. Heart Fail Clin. 2014;10:511-523.

36. Ferrari R, Böhm M, Cleland JGF, et al. Heart failure with preserved ejection fraction: uncertainties and dilemmas. Eur J Heart Fail. 2015;17:665-671.

37. Borlaug BA. The pathophysiology of heart failure with preserved ejection fraction. Nat Rev Cardiol. 2014;11:507-515.

38. Sharp A, Tapp R, Francis DP, et al. Ethnicity and left ventricular diastolic function in hypertension an ASCOT (Anglo-Scandinavian Cardiac Outcomes Trial) substudy. J Am Coll Cardiol. 2008;52:1015-1021.

39. Zile MR. Heart failure with a preserved ejection fraction. In: Mann DL, Zipes D, Libby P BR, eds. Braunwald’s Heart Disease: A Textbook of Cardiovascular Medicine. 10th ed. Philadelphia, PA: Saunders; 2014:557-574.

40. Yancy CW, Jessup M, Bozkurt B, et al. 2017 ACC/AHA/HFSA Focused Update of the 2013 ACCF/AHA Guideline for the Management of Heart Failure: A Report of the American College of Cardiology/American Heart Association Task Force on Clinical Practice Guidelines and the Heart Failure Society of America. J Am Coll Cardiol. 2017;70:776-803.

41. Mentz RJ, Kelly JP, von Lueder TG, et al. Noncardiac comorbidities in heart failure with reduced versus preserved ejection fraction. J Am Coll Cardiol. 2014;64:2281-2293.

42. de las Fuentes L, Waggoner AD, Mohammed BS, et al. Effect of moderate diet-induced weight loss and weight regain on cardiovascular structure and function. J Am Coll Cardiol. 2009;54:2376-2381.

43. Kitzman DW, Brubaker P, Morgan T, et al. Effect of caloric restriction or aerobic exercise training on peak oxygen consumption and quality of life in obese older patients with heart failure with preserved ejection fraction. JAMA. 2016;315:36-46.

44. Rider OJ, Francis JM, Ali MK, et al. Beneficial cardiovascular effects of bariatric surgical and dietary weight loss in obesity. J Am Coll Cardiol. 2009;54:718-726.

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46. Yoshihisa A, Suzuki S, Yamauchi H, et al. Beneficial effects of positive airway pressure therapy for sleep-disordered breathing in heart failure patients with preserved left ventricular ejection fraction. Clin Cardiol. 2015;38:413-421.

47. Shah RV, Abbasi SA, Heydari B, et al. Obesity and sleep apnea are independently associated with adverse left ventricular remodeling and clinical outcome in patients with atrial fibrillation and preserved ventricular function. Am Heart J. 2014;167:620-626.

48. Riegel B, Moser DK, Anker SD, et al. State of the science: promoting self-care in persons with heart failure: a scientific statement from the American Heart Association. Circulation. 2009;120:1141-1163.

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50. Bernheim SM, Grady JN, Lin Z, et al. National patterns of risk-standardized mortality and readmission for acute myocardial infarction and heart failure: update on publicly reported outcomes measures based on the 2010 release. Circ Cardiovasc Qual Outcomes. 2010;3:459-467.

51. Krumholz HM, Merrill AR, Schone EM, et al. Patterns of hospital performance in acute myocardial infarction and heart failure 30-day mortality and readmission. Circ Cardiovasc Qual Outcomes. 2009;2:407-413.

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The PARADIGM-HF (Prospective comparison of ARNI with ACEI to Determine Impact on Global Mortality and morbidity in Heart Failure) trial compared outcomes in patients receiving ARNI therapy to those receiving enalapril.²⁶ The authors stopped the trial early due to the overwhelming benefit seen in the ARNI arm.

After a median follow-up of 27 months, the researchers found a reduction in the primary outcomes of either cardiovascular death or first hospitalization for HF (26.5% in the enalapril-treated group vs 21.8% in the ARNI-treated group; NNT=21).²⁶ There were slightly more cases of angioedema in the ARNI arm than in the enalapril arm (0.5% vs 0.2%), although there were no patients in the trial who required endotracheal intubation.²⁶

Recommend ivabradine as add-on therapy to all patients with an EF ≤35% who remain symptomatic despite taking the maximum-tolerated dose of a beta-blocker.

Because of this increased risk, do not prescribe ARNI therapy for any patient with a history of angioedema.⁶ Hypotension was more common in the ARNI-treated group than in the enalapril group (14% vs 9.2%), but there were lower rates of hyperkalemia, elevated serum creatinine, and cough in the ARNI-treated group than in the enalapril group.²⁶

Consider ARNI treatment for all patients with an EF ≤40% who remain symptomatic despite appropriate doses of an ACE inhibitor or ARB plus a beta-blocker. Do not administer ARNI therapy concomitantly with an ACE inhibitor or ARB. When switching, do not start ARNI therapy for at least 36 hours after the last dose of an ACE inhibitor or ARB.⁶

Ivabradine is a sinoatrial node modulator that provides additional heart rate reduction. It does not affect ventricular repolarization or myocardial contractility.²⁷ Early trials with this medication have shown reduced cardiac mortality and an NNT to prevent one first HF hospitalization within one year of 27.²⁸Adverse effects include symptomatic and asymptomatic bradycardia and luminous phenomena.²⁸

Recommend ivabradine as add-on therapy to all patients with an EF ≤35%, normal sinus rhythm, and resting heart rate ≥70 bpm who remain symptomatic despite taking the maximum-tolerated dose of a beta-blocker.⁶ The dose is adjusted to achieve a resting heart rate of 50 to 60 bpm.²⁷

Nonpharmacologic options

Implantable cardioverter defibrillators (ICDs) are recommended as primary prevention in select HFrEF patients to reduce the risk of sudden cardiac death and all-cause mortality. The 2013 American College of Cardiology Foundation/AHA Guideline for the Management of Heart Failure recommends an ICD for primary prevention for: 1) patients with symptomatic HF and an LVEF ≤35% despite ≥3 months of optimal medical therapy, and 2) patients at least 40 days post-MI with an LVEF of ≤30%.^5,29 ICDs are not recommended for patients who have a life expectancy of less than one year, and the devices are of unclear benefit for patients ≥75 years of age.⁵

Cardiac resynchronization therapy (CRT), although not new to the field of cardiology, is new to the treatment of heart failure. A number of patients with HFrEF have QRS prolongation and in particular, left bundle branch block (LBBB).⁵ CRT uses biventricular pacing to restore synchronous contraction of the left and right ventricles.³⁰ It is strongly recommended for patients with an EF ≤35%, sinus rhythm, LBBB, QRS ≥150 ms, and a life expectancy of at least one year.^5,7 It is weakly recommended for patients with an EF ≤35% and a QRS ≥150 ms but without LBBB. It’s also weakly recommended for patients with an EF ≤35% and LBBB with a QRS of 120 to 150 ms.^5,31

Left ventricular assist devices (LVADs) and cardiac transplantation are considerations for patients with severe symptoms refractory to all other interventions.⁵ LVADs may be used either while awaiting cardiac transplantation (bridge therapy) or as definitive treatment (destination therapy). Appropriate patient selection for such therapies requires a team of experts that ideally includes HF and transplantation cardiologists, cardiothoracic surgeons, nurses, social workers, and palliative care clinicians.⁵

Treatment of HFpEF: Evidence is lacking

While HFpEF is common—affecting about half of all patients with HF—ideal treatment remains unclear.³² Some trials have shown promise, but to date no unequivocal evidence exists that any standard therapy reduces mortality in patients with HFpEF.^33-37 Underlying mechanisms of action of HFpEF include cardiac rate and rhythm abnormalities, atrial dysfunction, and stiffening of the ventricles. In a sense, it represents an exaggerated expression of the pathophysiology seen with the normal aging of the heart and can be conceptualized as “presbycardia.”³⁷ Indeed, HFpEF is more common in the elderly, but it is also more common in patients of African descent.^38,39 Common contributing causes (which we’ll get to in a bit) include HTN, CAD, atrial fibrillation (AF), obesity, and obstructive sleep apnea (OSA).

Recommend cardiac rehabilitation to all symptomatic patients with HF who are clinically stable.

Trials have failed to show clear benefit for ACE inhibitors, ARBs, or beta-blockers.^7,33 The evidence for MRAs is somewhat unclear; however, they have recently been recommended as an option for patients who have been hospitalized in the last year to reduce the risk of subsequent hospitalizations.⁴⁰ Digoxin is used primarily for rate control in the setting of AF, but otherwise is of unclear benefit.⁷ A low-sodium diet (ie, ≤2 g/d) may be useful in those patients who are prone to fluid overload.^5,7 The cornerstone of treatment of HFpEF is the relief of volume overload with diuretics and the treatment of coexisting conditions.³³