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Abstract

• Chronic heart failure (CHF) affects approximately 1% of people aged 50-59 years, and this high prevalence increases dramatically with age.
  
• CHF is a common reason for hospital admission and general practitioner consultation in the elderly.
  
• Common causes of CHF are ischaemic heart disease, hypertension and idiopathic dilated cardiomyopathy.
  
• Diagnosis of CHF is based on clinical features and objective measurement of ventricular function (eg, echocardiography).
  
• Management is directed at prevention, retarding disease progression, relief of symptoms and prolonging survival.
  
  • Non-pharmacological approaches include exercise, home-based support and risk-factor modification.
    
  • Angiotensin-converting enzyme (ACE) inhibitors are the cornerstone of pharmacological therapy to prevent disease progression and prolong survival.
    
  • β-Blockers prolong survival when added to ACE inhibitors in symptomatic patients.
    
  • Diuretics provide symptom relief and restoration or maintenance of euvolaemia.
    
  • Spironolactone, angiotensin II receptor antagonists and digoxin may be useful in some patients.
    
  • Surgical approaches in highly selected patients may include myocardial revascularisation, insertion of devices and cardiac transplantation.

Information on the overall incidence and prevalence of CHF in Australia is derived mainly by extrapolation of overseas information. Based on data from the United States,³ it is likely that at least 300 000 Australians are affected with CHF and about 30 000 new cases are diagnosed annually. There are more reliable Australian data regarding hospitalisation for CHF -- in 1996 and 1997, 41 000 hospitalisations reported CHF as a principal diagnosis, and CHF accounted for 0.8% of all hospitalisations in Australia in these two years, with patients aged 70 years and over accounting for over three-quarters of all hospitalisations for CHF. During 1996 and 1997, CHF contributed 2% of all deaths.⁴

CHF also constitutes a common reason for consultations with general practitioners. A recent survey of 341 Australian general practitioners estimated that, for every 100 patients aged 60 years and over seen in general practice, 11 had known CHF and two would be newly diagnosed as having CHF based on clinical features and known aetiological factors.⁵

The cost burden associated with CHF is expected to increase markedly⁶ because of a number of factors, including:

• ageing of the population;

• the projected increase in the number of older people with coronary heart disease and hypertension;

• the decrease in case-fatality rates associated with acute coronary syndromes; and

• improved diagnosis of CHF because of increased use of sensitive techniques, such as echocardiography.

There are no precise data for Australia relating to the economic burden associated with CHF. However, direct health costs for cardiovascular disease in 1993-94 were estimated at $3719 million (12% of total health care costs), and CHF has been estimated to account for $411 million of these costs, including $140 million per annum for costs of hospitalisation and $135 million per annum for nursing home costs.

Causes and diagnosis

Diagnosis is based on well-known clinical features and appropriate investigations, not only to confirm or exclude the diagnosis of CHF, but also to establish underlying causes for which particular treatment is necessary.

Recommendations relating to the diagnosis of CHF are shown in Box 2.

Management of chronic heart failure

Details supporting the use of drugs in systolic CHF are summarised in Box 5 and the management of diastolic CHF is summarised in Box 6.

Angiotensin-converting enzyme (ACE) inhibitors

• prolong survival (compared with placebo) in patients with New York Heart Association Class II, III and IV CHF;^31,32

• improve patient symptom status, exercise tolerance and reduce hospitalisation for worsening CHF⁴⁵ (in some but not all studies); and

• increase ejection fraction compared with placebo in many studies.

The optimal dose of ACE inhibitor has not been definitively determined. In one study that examined ACE inhibitor dosage, there was no difference in the combined endpoint of death, CHF hospitalisation or worsening CHF whether enalapril was used at 2.5 mg, 5 mg or 10 mg twice daily.⁴⁶ In a study comparing lisinopril at doses of 2.5-5 mg and 32.5-35 mg daily, there was a marginal, non-significant reduction in mortality, with a significant but rather small (12%) reduction in the combined endpoint of death and all-cause hospitalisation with the higher dose.³⁴ These data have been interpreted in many ways, but there is general agreement that all patients with CHF should be established on therapy with at least low doses of ACE inhibitors, and that an effort should be made to up-titrate to higher doses if possible.

β-Blockers

Three β-blockers — carvedilol (β₁-, β₂- and ₁-antagonist),³⁵ bisoprolol (β₁-selective antagonist, not currently available in Australia)³⁶ and metoprolol extended release (β₁-selective antagonist, formulation not currently available in Australia)³⁷ — have been shown to prolong survival in patients with mild to moderate CHF already receiving background ACE inhibitor therapy.

More recently, carvedilol has been shown to prolong survival (35% relative reduction in risk of death)³⁹ in a prospective study of patients with severe CHF symptoms who did not have overt volume overload or recent acute decompensation. Similar observations have been made from post-hoc analyses of subgroups with advanced heart failure symptoms in the above trials of metoprolol and bisoprolol.

β-Blocker therapy should not be initiated during a phase of decompensation, but only after the patient's condition has stabilised. β-Blockers should be started at very low initial doses, then up-titrated slowly to target dose, with the expectation that it may take some months before clinical benefits occur. Adverse effects of initiation of β-blockade in CHF are commonly observed and include symptomatic hypotension, worsening of underlying disease because of withdrawal of sympathetic drive, and bradycardia. However, side effects are usually transitory and rarely necessitate cessation of β-blocker therapy.

Patients with minimal symptoms (New York Heart Association Class II) derive little symptomatic benefit from β-blocker therapy,⁴⁷ while clinically significant improvements in symptom status are observed in those with more advanced disease. Symptomatic benefit is delayed with β-blockade, and this may be an important issue in decision-making about starting the drug in severely symptomatic patients with limited life expectancy.

Diuretics

The dose of diuretic should be regularly reassessed, as dosage may need to be adjusted based on whether the patient is considered to be volume overloaded or underloaded on clinical evaluation.

Spironolactone

This hypothesis has recently been supported by the observation of a 30% reduction in all-cause mortality and symptomatic improvement in advanced CHF patients receiving spironolactone (average, 25 mg per day) compared with placebo.⁴⁰

The risk of the potentially lethal adverse effect of hyperkalaemia, particularly in the setting of concomitant renin-angiotensin system blockade and/or renal impairment, makes careful monitoring mandatory when using spironolactone.

Digitalis

There have been a number of studies in patients with CHF and sinus rhythm that support the favourable effect of digoxin on symptoms and ejection fraction. Withdrawal of digoxin in the presence of an ACE inhibitor leads to progressive clinical deterioration in symptom status as well as exercise tolerance.⁴²

In contrast, the only placebo-controlled trial of mortality with digoxin yielded a neutral outcome.⁴³ While deaths from worsening CHF were reduced with digoxin therapy, this was offset by an increase in sudden deaths. However, digoxin therapy was accompanied by a reduction in hospitalisation for worsened CHF and patients with more severe symptoms appeared to benefit symptomatically from the introduction of digoxin.

Digoxin remains valuable therapy in CHF patients with concomitant atrial fibrillation (AF).

Other drugs

• Hydralazine and isosorbide dinitrate — This combination of vasodilator drugs has shown marginal superiority compared with placebo in terms of overall mortality,⁴⁸ and no benefit for hospitalisation. The ACE inhibitor enalapril was clearly shown to be superior to hydralazine and isosorbide dinitrate by reducing sudden deaths.⁴⁴

• Angiotensin II receptor antagonists — It is uncertain whether angiotensin II (AII) receptor antagonists offer additional benefits over ACE inhibitors. They are generally better tolerated than ACE inhibitors because they do not produce kinin-mediated side effects, such as dry cough. On the other hand, inhibition of kinin breakdown by ACE inhibitors may be an important component of their beneficial mechanism (ie, bradykinin-induced nitric oxide synthesis).

Comparative studies of ACE inhibitors versus AII antagonists have tested these hypotheses,^49,50 but have shown no evidence for superiority of AII receptor antagonists; indeed, there was a significant mortality benefit with the combination of ACE inhibitor and β-blocker compared with the AII receptor antagonist and β-blocker combination.⁵⁰

It is possible (but not yet confirmed) that combination therapy with ACE inhibitors and AII antagonists may maximise the benefits of renin-angiotensin system blockade.⁴¹ There may also be an adverse interaction of this combination with β-blockers.⁴¹

Based on the above findings, AII receptor antagonists may be considered as an alternative to ACE inhibitors for patients who are truly ACE-inhibitor intolerant as a result of kinin-mediated adverse effects such as cough.⁴¹

Drugs to avoid in chronic heart failure

• Anti-arrhythmic agents (apart from β-blockers and amiodarone) should be avoided because of their pro-arrhythmic potential, negative inotropic effects, and a tendency to increase mortality.

• Calcium antagonists that are direct negative inotropic agents, such as verapamil and diltiazem, are absolutely contraindicated in patients with systolic CHF. Dihydropyridine calcium antagonists such as amlodipine and felodipine offer no survival benefit in systolic CHF.^51-53

• Tricyclic antidepressants should be avoided because of their pro-arrhythmic potential.

• Non-steroidal anti-inflammatory drugs (NSAIDs)⁵⁴ should be avoided, as they can inhibit the effects of diuretics and ACE inhibitors and can worsen both cardiac and renal function. Cyclooxygenase (COX)-2 inhibitors appear to have similar adverse effects on salt and water retention as do standard NSAIDs.⁵⁵

Pharmacological therapies reserved for advanced chronic heart failure

A small proportion of patients can not be weaned from inotropes despite repeated attempts, but are well enough with inotrope therapy to be managed at home with the aid of a portable pump and long-term IV access. This can be used as a bridging strategy to heart transplantation, or as palliation.

Treatment of associated disorders

CHF and cardiac arrhythmia

• Efforts should be made to restore and maintain sinus rhythm in patients with atrial fibrillation (AF). This may require episodic electrical cardioversion while patients are anticoagulated with warfarin. If sinus rhythm can not be maintained for prolonged periods, therapy should be directed at controlling the ventricular response rate (with digoxin, -blockers or amiodarone) and reducing thromboembolic risk by anticoagulation with warfarin.⁵⁹

• Use of amiodarone should be considered in patients who have frequent episodes of symptomatic ventricular tachycardia (VT), and as a component of therapy in patients at high risk of ventricular fibrillation (VF).

• Therapy with Class I anti-arrhythmic agents (eg, flecainide) is generally contraindicated in the presence of systolic CHF.

CHF and ischaemic heart disease

• Specific treatment of ischaemia may represent the primary therapeutic option in selected patients presenting with symptoms of CHF.

• CHF patients with demonstrably reversible ischaemia should be considered for myocardial revascularisation procedures.

• Calcium antagonists should generally be avoided as anti-anginal therapy in patients with left ventricular ejection fractions below 40%.

• -Blockers represent a major component of anti-anginal therapy in CHF, and should be used whenever tolerated.

• Prophylactic nitrate therapy should usually be a component of anti-anginal therapy in CHF.

• Patients with severe angina and inoperable disease, together with systolic CHF, may be considered for prophylactic therapy with perhexiline, as long as plasma drug levels are monitored regularly to prevent toxicity.

CHF and arthritis

Low-dose aspirin (up to 150 mg/day) appears to be well tolerated in patients with CHF. Higher doses should probably be avoided.⁶⁰ There is controversy at present about a possible interaction between aspirin and ACE inhibitors which might decrease the efficacy of the ACE inhibitors.⁶¹

Ancillary therapies

Pacing

The use of biventricular pacing to resynchronise cardiac contraction in patients with systolic CHF and left bundle branch block is currently the subject of several international trials. Results so far are promising, with symptomatic benefit in patients programmed in biventricular mode.⁶² Longer-term and mortality data are awaited.

Surgery (other than revascularisation)

Left ventricular aneurysmectomy may benefit patients with CHF in whom a large aneurysm can be excised, particularly if the remaining myocardium is functionally normal and there is minimal residual coronary artery disease.

Left ventricular free wall excision (frequently with concomitant mitral valve repair or replacement) aims to restore a normal myocardial mass-to-volume ratio in patients with severe left ventricular dilatation. This procedure has not yet been subjected to the clinical trials needed to define its place (if any) in managing CHF.⁶³

Cardiomyoplasty via stimulated skeletal muscle wraps has been used to augment the function of the failing left ventricle in patients with New York Heart Association Class III symptoms and only modest left ventricular dilatation.⁶⁴ Because of disappointing results with this approach, non-stimulated synthetic wraps, which passively restrict LV dilatation, have more recently been evaluated, with promising initial results.⁶⁵

Left ventricular assist devices (LVADs) are most often used as a temporary bridge to cardiac transplantation or for recovery of the heart after cardiac surgery.⁶⁶ While they have occasionally been used as a long-term alternative to cardiac transplantation, no device is approved for this indication. The prohibitive cost, large size, the fact that only part of the device is implantable and risk of complications (especially infection and thromboembolism) limit the widespread use of currently available LVADs in patients with end-stage CHF.

Cardiac transplantation is an accepted therapy for certain patients with refractory CHF who meet eligibility criteria.⁶⁷ The five-year survival is 65%-75%, but a shortage of donors means it is available only for a very small subset of patients.

Diastolic heart failure

Disclosure

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Authors' details

Reprints will not be available from the authors.
Correspondence: Associate Professor H Krum, Clinical Pharmacology Unit, Department of Epidemiology and Preventive Medicine, and Department of Medicine, Monash University, Alfred Hospital, Prahran, 3181 VIC.
henry.krumATmed.monash.edu.au
* See background and evidence basis of recommendations box at the end of the article.

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