Madeline Yushak

Relation between serum sodium concentration and the hemodynamic and clinical responses to converting enzyme inhibition with captopril in severe heart failure

The relation between pretreatment serum sodium concentration and the early and late effects of captopril was examined in 77 consecutive patients with severe chronic heart failure, in whom cardiac catheterization was performed during initiation of treatment and after 2 to 8 weeks. Two groups of patients were defined: 37 patients had hyponatremia (serum sodium less than 135 mEq/liter, group A) and 40 patients had a normal serum sodium concentration (greater than or equal to 135 mEq/liter, group B). With first doses of captopril, patients in group A showed more marked hemodynamic responses than did patients in group B (p less than 0.02). The changes in mean arterial pressure and left ventricular filling pressure seen with first doses of the drug varied linearly and inversely with the pretreatment serum sodium concentration (r = -0.58 and r = -0.53, respectively); this was likely related to the finding that, before administration of captopril, the serum sodium concentration varied linearly and inversely with the logarithm of the plasma renin activity (r = -0.78). However, the pretreatment serum sodium concentration did not predict the long-term hemodynamic or clinical responses to converting enzyme inhibition. Symptomatic hypotension occurred early in the course of therapy (within 24 hours of initiating captopril therapy) in 9 (12%) of the 77 patients; 8 of these 9 had severe hyponatremia (serum sodium less than 130 mEq/liter) and comprised 53% of the 15 patients in our study with such low serum sodium concentrations.(ABSTRACT TRUNCATED AT 250 WORDS)

Hemodynamic effects of renin inhibition by enalkiren in chronic congestive heart failure

Previous efforts to block the renin-angiotensin system in patients with chronic congestive heart failure (CHF) have focused on 2 distal sites in the system, the angiotensin-converting enzyme and the angiotensin II receptor. Recent work, however, has led to the development of agents that directly inhibit renin, the proximal step in the cascade. In this study, we investigated the hemodynamic effects of renin inhibition in 9 patients with chronic CHF by using enalkiren, a primate-selective, dipeptide renin inhibitor, which has been previously shown to suppress plasma renin activity and to lower blood pressure in hypertensive patients. The acute intravenous administration of enalkiren (1.0 mg/kg) produced increases in cardiac index (2.0 +/- 0.3 to 2.3 +/- 0.1 liter/min/m2) and stroke volume index (26 +/- 3 to 34 +/- 4 ml/m2) and decreases in left ventricular filling pressure (31 +/- 3 to 25 +/- 3 mm Hg), mean right atrial pressure (15 +/- 1 to 13 +/- 2 mm Hg), heart rate (78 +/- 5 to 72 +/- 6 beats/min) and systemic vascular resistance (2,199 +/- 594 to 1,339 +/- 230 dynes.s.cm-5) (all p less than 0.01 to 0.05). These observations indicate that renin inhibition produces hemodynamic benefits in patients with chronic CHF and could potentially provide a novel approach to interfering with the renin-angiotensin system in patients with this disorder.

Role of the renin-angiotensin system in the development of hemodynamic and clinical tolerance to long-term prazosin therapy in patients with severe chronic heart failure

Right heart catheterization was performed before and during long-term therapy with prazosin in 27 patients with severe chronic heart failure who underwent serial hemodynamic studies during 3 to 12 weeks of treatment with the drug. Doses of digoxin and furosemide remained constant during the trial; in addition, 11 of the 27 patients were assigned to concomitant therapy with spironolactone, while the remaining 16 patients did not receive the aldosterone antagonist. First doses of prazosin produced marked increases in cardiac index and marked decreases in mean arterial pressure, left ventricular filling pressure and systemic vascular resistance in both groups of patients (all p less than 0.01), but these effects became rapidly attenuated (p less than 0.01) in both groups after 48 hours and remained attenuated during long-term therapy. After 3 to 12 weeks, values for cardiac index returned to pretreatment levels and did not decrease when the drug was withdrawn; values for mean arterial pressure, left ventricular filling pressure and systemic vascular resistance remained significantly decreased (although attenuated) after 3 to 12 weeks (p less than 0.01) and increased to pretreatment values when the drug was withdrawn. The magnitude and time course of these responses were not altered by concomitant therapy with spironolactone. Complete loss of hemodynamic efficacy (prazosin tolerance) was noted in 14 (58%) of the 24 patients who underwent long-term hemodynamic study and was not accompanied by long-term changes in plasma renin activity or body weight. These data indicate that prazosin produces long-term hemodynamic and clinical benefits in only 30 to 40% of patients with severe chronic heart failure and do not support a role for the renin-angiotensin system in the development of tolerance to alpha-adrenergic blockade. This low response rate explains why most randomized double-blind trials of prazosin in heart failure have not been able to demonstrate a significant difference between patients treated with placebo and those receiving active drug.

Comparative hemodynamic and clinical effects of long-term treatment with prazosin and captopril for severe chronic congestive heart failure secondary to coronary artery disease or idiopathic dilated cardiomyopathy

Short- and long-term hemodynamic and clinical responses to sequential therapy with prazosin (15 mg/day for 3 to 12 weeks) and captopril (75 to 300 mg/day for 2 to 15 weeks) were compared in 22 patients with severe chronic congestive heart failure. First doses of prazosin produced marked increases in cardiac index and stroke volume index (p less than 0.01), but these effects were lost during long-term treatment. First doses of captopril produced only modest increases in both variables, but these persisted without attenuation during prolonged therapy. Both drugs produced immediate decreases in left ventricular filling pressure, mean arterial pressure, mean right atrial pressure and systemic vascular resistance; these changes became significantly attenuated (p less than 0.01) with prazosin but not with captopril. At the end of treatment, stroke volume index was significantly higher and right and left ventricular filling pressures were significantly lower with captopril than with prazosin (p less than 0.05 to 0.01). Only 8 of the 22 patients (36%) treated with prazosin benefited clinically, whereas 14 of 19 patients (74%) treated with captopril felt that they had improved (p less than 0.05). These differences could not have been predicted by comparing responses to first doses of the 2 drugs. These findings indicate that the choice of 1 vasodilator drug over another in patients with congestive heart failure should be based on studies that compare their long-term rather than short-term hemodynamic and clinical effects.

Efficacy of captopril in low-renin congestive heart failure: importance of sustained reactive hyperreninemia in distinguishing responders from nonresponders

To determine the efficacy of converting-enzyme inhibition in patients with low-renin congestive heart failure (CHF), the long-term hemodynamic and clinical responses to captopril were evaluated in 26 consecutive patients with severe, chronic CHF whose pretreatment plasma renin activity (PRA) was less than 2 ng/ml/hour. After 2 to 8 weeks of continuous treatment with captopril, 14 patients (54%) showed long-term hemodynamic benefits, of whom 13 (50%) improved clinically by at least 1 New York Heart Association functional class. To distinguish responders from nonresponders, patients were grouped based on the presence or absence of sustained reactive hyperreninemia (PRA during chronic therapy greater than 4 ng/ml/hour). After 2 to 8 weeks of therapy with captopril, 14 patients had sustained reactive hyperreninemia. Their cardiac index increased by 0.33 liters/min/m2 (p less than 0.01), left ventricular filling pressure decreased by 12.6 mm Hg (p less than 0.001), mean right atrial pressure decreased by 4.9 mm Hg (p less than 0.001) and systemic vascular resistance decreased by 529 dyne s cm-5 (p less than 0.001). Twelve of these 14 patients improved clinically. Twelve other patients had no reactive increase in PRA, and these patients showed no significant improvement in any hemodynamic variable after 2 to 8 weeks of treatment with captopril; only 1 of the 12 patients improved clinically (p less than 0.001 between groups). The 2 groups were otherwise similar with regard to pretreatment demographic, hemodynamic and hormonal variables.(ABSTRACT TRUNCATED AT 250 WORDS)

Provocation of myocardial ischemic events during initiation of vasodilator therapy for severe chronic heart failure: Clinical and hemodynamic evaluation of 52 consecutive patients with ischemie cardiomyopathy☆

Although hydralazine provokes myocardial ischemic events in hypertensive patients not in heart failure by producing reflex tachycardia, the frequency of and mechanisms underlying ischemic events when this drug is administered as a vasodilator agent to patients with heart failure is unknown. The responses to hydralazine in 52 consecutive patients with severe chronic heart failure secondary to coronary artery disease were reviewed. Twelve patients (23 percent) had 16 ischemic events during the initial administration of hydralazine (angina at rest in 12 and myocardial infarction in 4); these generally occurred in the absence of significant tachycardia and hypotension. Thirty-five of the 52 patients received nitroprusside (8 of whom had ischemic events with hydralazine), but this drug provoked ischemia in only 1 of the 35 although it resulted in greater decreases in systemic arterial pressure than occurred with hydralazine. In patients with ischemic event only with hydralazine, left ventricular filling pressure decreased 14.6 mm Hg with nitroprusside but only 3.9 mm Hg with hydralazine (probability [p] less than 0.01). Provocation of ischemia with hydralazine may therefore be due to the relative preservation of elevated left ventricular preload with this drug, since ischemic events are not in common with nitroprusside despite greater decreases in systemic pressures.

Comparative effects of captopril and isosorbide dinitrate on pulmonary arteriolar resistance and right ventricular function in patients with severe left ventricular failure: Results of a randomized crossover study

We compared the short-term hemodynamic effects of isosorbide dinitrate (40 mg orally) and captopril (25 mg orally) in 18 patients with severe chronic heart failure in a randomized, crossover study conducted on consecutive days. Captopril and isosorbide dinitrate produced similar decreases in systemic vascular resistance, but whereas nitrate therapy decreased pulmonary arteriolar resistance significantly, captopril did not; the difference between the two drugs was highly significant (-25% vs -5%, p less than 0.001). Left ventricular filling pressures declined similarly with both captopril (-10.5 mm Hg) and with isosorbide dinitrate (-9.3 mm Hg), but because pulmonary arteriolar resistance fell significantly with nitrate therapy, mean right atrial pressure decreased more with isosorbide dinitrate than with captopril (-5.4 vs -2.8 mm Hg, respectively; p less than 0.001). Although systemic resistance declined similarly with both drugs, cardiac index increased more with nitrate therapy than during converting-enzyme inhibition (+0.47 vs +0.23 L/min/m2) (p less than 0.01), and therefore mean arterial pressure fell less with isosorbide dinitrate than with captopril (-10.5 mm Hg vs -16.7 mm Hg); p less than 0.05); two patients developed symptomatic hypotension with captopril, whereas none did so with the nitrate. The difference in the effects of the two drugs on cardiac index was not due to differences in their effects on heart rate, since heart rate fell similarly with both drugs, and thus both drugs produced similar increases in stroke volume index. These data indicate that, in patients with severe chronic heart failure, nitrates exert favorable dilating effects on the pulmonary circulation not shared by captopril.(ABSTRACT TRUNCATED AT 250 WORDS)

Hemodynamic and clinical significance of the pulmonary vascular response to long-term captopril therapy in patients with severe chronic heart failure

Exercise capacity in patients with left heart failure is closely related to the performance of the right ventricle and the pulmonary circulation. To determine the significance of changes in pulmonary resistance during long-term vasodilator therapy, hemodynamic studies were performed before and after 1 to 3 months of treatment with captopril in 75 patients with severe chronic left heart failure. Patients were grouped according to the relative changes in pulmonary and systemic resistances during long-term therapy: patients in Group I (n = 24) showed greater decreases in pulmonary arteriolar resistance (PAR) than in systemic vascular resistance (SVR) (% delta PAR/% delta SVR greater than 1.0), whereas patients in Group II showed predominant systemic vasodilation (% delta PAR/% delta SVR less than 1.0). Despite similar changes in systemic resistance, patients in Group I showed greater increases in cardiac index, stroke volume index and left ventricular stroke work index (p less than 0.01 to 0.001) but less dramatic decreases in mean systemic arterial pressure (p less than 0.02) than did patients in Group II. Despite similar changes in left ventricular filling pressure, patients in Group I showed greater decreases in mean pulmonary artery and mean right atrial pressures (p less than 0.02 to 0.01) than did patients in Group II. Pretreatment variables in Groups I and II were similar, except that plasma renin activity was higher (8.7 +/- 2.1 versus 3.0 +/- 0.6 ng/ml per h) and serum sodium concentration was lower (133.1 +/- 0.9 versus 137.1 +/- 0.6 mEq/liter) in Group II than in Group I (both p less than 0.05). Both groups improved clinically after 1 to 3 months, but symptomatic hypotension occurred more frequently in Group II than in Group I (36 versus 8%) (p less than 0.005). These findings indicate that changes in the pulmonary circulation modulate alterations in both right and left ventricular performance during the treatment of patients with left heart failure. Hyponatremic patients are likely to experience symptomatic hypotension with captopril because they are limited in their ability to increase cardiac output as a result of an inadequate pulmonary vasodilator response to the drug.

Contrasting hemodynamic responses in severe heart failure: Comparison of captopril and other vasodilator drugs

Four studies were conducted in 36 patients with severe chronic heart failure to compare the central hemodynamic effects of captopril (CPT) to other vasodilator agents. While CPT produced less marked increases in cardiac output than did hydralazine (n = 14), nitroprusside (n = 15), or prazosin (n = 7), it produced decreases in left ventricular filling pressures similar to nitroprusside and prazosin but more than hydralazine. CPT and isosorbide dinitrate (n = 11) produced similar decreases in systemic vascular resistance and left ventricular filling pressure. However, cardiac output increased less with CPT than with nitrates, because heart rate slowed during CPT therapy. In addition, mean right atrial pressure decreased less with CPT than with nitrates, because CPT had minimal effects on limb venous capacitance and pulmonary arteriolar resistance. Alterations in left ventricular pressure-volume relationships likely contributed to the marked decreases in left ventricular filling pressures seen with CPT. In conclusion, the central hemodynamic effects of CPT differ significantly from other vasodilator drugs used in the treatment of heart failure patients. These effects cannot be characterized simply in terms of balanced peripheral arterial and venous vasodilation; CPT exerts highly complex effects on peripheral vessels as well as having actions independent of its peripheral vasodilator effects.

Quantitative differences in the hemodynamic effects of captopril and nitroprusside in severe chronic heart failure

The hemodynamic effects of oral captopril and intravenous nitroprusside were compared in 15 patients with severe chronic congestive heart failure. At doses of both drugs titrated so as to produce similar decreases in systemic vascular resistance in each patient, nitroprusside produced substantially greater increases in cardiac index (+0.67 versus +0.31 liters/min/m2, p less than 0.01) but smaller decreases in mean arterial pressure (-18.4 versus -11.0 mm Hg, p less than 0.01) than did captopril. This finding was due to a significant decrease in heart rate with captopril (-7 beats/min, p less than 0.01) which was not seen with nitroprusside, since changes in stroke volume index with both drugs were similar. Nitroprusside produced a decrease in pulmonary arteriolar resistance quantitatively similar to the decrease in systemic vascular resistance, but the decrease in pulmonary arteriolar resistance with captopril was not significant. Despite similar decreases in systemic resistance, captopril produced a greater decrease in left ventricular filling pressure (-10.2 versus -6.9 mm Hg, p less than 0.01) but a smaller decrease in mean right atrial pressure (-3.1 versus -5.3 mm Hg, p less than 0.01) than did nitroprusside. Thus, captopril has actions independent of its systemic vasodilator effects which account for the quantitative differences observed in its hemodynamic responses compared with those of nitroprusside in patients with severe chronic heart failure. These differences support experimental evidence that angiotensin, in addition to its direct systemic arterial vasoconstrictor actions, exerts positive chronotropic effects and alters ventricular compliance but has minimal direct effects on the limb venous circulation and on the pulmonary vasculature.