Sustained Reduction of Aldosterone in Response to the Angiotensin Receptor Blocker Valsartan in Patients With Chronic Heart Failure: Results From the Valsartan Heart Failure Trial

Background—Aldosterone has been implicated in the progression of heart failure. The Valsartan Heart Failure Trial (Val-HeFT) provided the first opportunity to examine the long-term effects of an angiotensin receptor blocker on plasma aldosterone levels in patients with NYHA class II through IV heart failure. Methods and Results—Plasma aldosterone was measured by radioimmunoassay in core laboratories at baseline and during follow-up in patients assigned to valsartan at a target dose of 160 mg twice daily or placebo. In the placebo group, aldosterone (baseline, 150±160 pg/mL, mean±SD; n=2025) increased at 4, 12, and 24 months. In the valsartan group, aldosterone (baseline, 137±124 pg/mL, mean±SD; n=2023) decreased at 4 months and remained suppressed for up to 2 years. At end point (last measurement in each patient), mean aldosterone increased by 17.8±3.0 pg/mL (SEM) (11.9%) in the placebo group and decreased by 23.8±3.0 pg/mL (SEM) (−17.4%) in the valsartan group (P <0.00001). The effect of valsartan was similar in all subgroups, including those receiving neither ACE inhibitors (ACE-I) nor &bgr;-blockers (BB) at baseline and those receiving concomitant ACE-I or BB. In contrast, outcome effects varied in the 4 subgroups, with a statistically significant reduction in the combined mortality/morbidity end point in those receiving neither neurohormonal inhibitor and an adverse trend in those treated with both drugs. Conclusions—Valsartan added to background therapy for heart failure produces sustained reduction in plasma aldosterone, consistent with the observed significant reduction in the combined mortality/morbidity end point. A similar reduction in all subgroups based on ACE-I or BB therapy, despite differing clinical outcomes in these subgroups, suggests that aldosterone plasma levels may not be a critical marker of the progression of heart failure.

[1]  J. Cohn,et al.  A randomized trial of the angiotensin-receptor blocker valsartan in chronic heart failure. , 2001, The New England journal of medicine.

[2]  T. Diperri,et al.  Aldosterone in congestive heart failure. , 1959, Acta medica Scandinavica.

[3]  B. Pitt,et al.  Eplerenone, a Selective Aldosterone Blocker, in Patients with Left Ventricular Dysfunction after Myocardial Infarction , 2003 .

[4]  F. Alla,et al.  Treatment of Congestive Heart Failure: Interfering the Aldosterone-Cardiac Extracellular Matrix Relationship , 2001, Hypertension.

[5]  F. Alla,et al.  Limitation of Excessive Extracellular Matrix Turnover May Contribute to Survival Benefit of Spironolactone Therapy in Patients With Congestive Heart Failure: Insights From the Randomized Aldactone Evaluation Study (RALES) , 2000, Circulation.

[6]  C. Delcayre,et al.  Aldosterone and the heart: towards a physiological function? , 1999, Cardiovascular research.

[7]  J. Melby,et al.  ALDOSTERONE AND THE EDEMA OF CONGESTIVE HEART FAILURE. , 1964, Archives of internal medicine.

[8]  A. Struthers,et al.  Neurohormonal reactivation in heart failure patients on chronic ACE inhibitor therapy: a longitudinal study , 1999, European journal of heart failure.

[9]  P. Vandervoort,et al.  Valsartan benefits left ventricular structure and function in heart failure: Val-HeFT echocardiographic study. , 2002, Journal of the American College of Cardiology.

[10]  A. Struthers Aldosterone escape during angiotensin-converting enzyme inhibitor therapy in chronic heart failure. , 1996, Journal of cardiac failure.

[11]  S. Silver,et al.  Heart Failure , 1937, The New England journal of medicine.

[12]  S. Anker,et al.  Failure of aldosterone suppression despite angiotensin-converting enzyme (ACE) inhibitor administration in chronic heart failure is associated with ACE DD genotype. , 2001, Journal of the American College of Cardiology.

[13]  E. Sonnenblick,et al.  Maximally recommended doses of angiotensin-converting enzyme (ACE) inhibitors do not completely prevent ACE-mediated formation of angiotensin II in chronic heart failure. , 2000, Circulation.

[14]  P. Lijnen,et al.  Antagonism of the renin-angiotensin-aldosterone system and collagen metabolism in cardiac fibroblasts. , 1999, Methods and findings in experimental and clinical pharmacology.

[15]  S. Pringle,et al.  How often are angiotensin II and aldosterone concentrations raised during chronic ACE inhibitor treatment in cardiac failure? , 1999, Heart.

[16]  K. Ito,et al.  CIRCULATING ANGIOTENSIN II LEVELS UNDER REPEATED ADMINISTRATION OF LISINOPRIL IN NORMAL SUBJECTS , 1992, Clinical and experimental pharmacology & physiology.

[17]  G. Sanz,et al.  Clinical implications of increased plasma angiotensin II despite ACE inhibitor therapy in patients with congestive heart failure. , 2000, European heart journal.

[18]  A. Menozzi,et al.  Aldosterone inhibition limits collagen synthesis and progressive left ventricular enlargement after anterior myocardial infarction. , 2001, American heart journal.

[19]  H. Hense,et al.  Associations between circulating components of the renin-angiotensin-aldosterone system and left ventricular mass. , 1997, Heart.

[20]  B. Pitt “Escape” of aldosterone production in patients with left ventricular dysfunction treated with an angiotensin converting enzyme inhibitor: Implications for therapy , 1995, Cardiovascular Drugs and Therapy.

[21]  M. Kinoshita,et al.  Effect of spironolactone on plasma brain natriuretic peptide and left ventricular remodeling in patients with congestive heart failure. , 2001, Journal of the American College of Cardiology.

[22]  J. Staessen,et al.  Rise in plasma concentration of aldosterone during long-term angiotensin II suppression. , 1981, The Journal of endocrinology.

[23]  S. Yusuf,et al.  Comparison of candesartan, enalapril, and their combination in congestive heart failure: randomized evaluation of strategies for left ventricular dysfunction (RESOLVD) pilot study. The RESOLVD Pilot Study Investigators. , 1999, Circulation.

[24]  B. Pitt,et al.  The effect of spironolactone on morbidity and mortality in patients with severe heart failure. Randomized Aldactone Evaluation Study Investigators. , 1999, The New England journal of medicine.

[25]  E. Goldberger ALDOSTERONE AND THE EDEMA OF CONGESTIVE HEART FAILURE. , 1965, The American journal of cardiology.

[26]  B. Pitt,et al.  Eplerenone , a Selective Aldosterone Blocker , in Patients with Left Ventricular Dysfunction after Myocardial Infarction , 2003 .

[27]  N. Hollenberg,et al.  Literature alert , 2002 .

[28]  K. Kugiyama,et al.  Aldosterone Production Is Activated in Failing Ventricle in Humans , 2001, Circulation.

[29]  K. Weber,et al.  Anti-aldosterone treatment and the prevention of myocardial fibrosis in primary and secondary hyperaldosteronism. , 1993, Journal of molecular and cellular cardiology.

[30]  C. Edwards,et al.  Syndrome of apparent mineralocorticoid excess. A defect in the cortisol-cortisone shuttle. , 1988, The Journal of clinical investigation.