Nitrate therapy of heart failure in valvular heart disease. Importance of resting level of peripheral vascular resistance in determining cardiac output response

Sustained hemodynamic response to flosequinan in patients with heart failure receiving angiotensin-converting enzyme inhibitors

OBJECTIVES

We evaluated the short- and long-term effects of flosequinan in 47 patients with severe heart failure despite ongoing captopril treatment.

BACKGROUND

There have been no previous evaluations of the long-term hemodynamic effects of any direct-acting vasodilator in patients with heart failure receiving an angiotensin-converting enzyme inhibitor. Flosequinan is an arterial and venous vasodilator with actions similar to those of the hydralazine-isosorbide dinitrate combination.

METHODS

After baseline hemodynamic measurements using balloon-tipped pulmonary artery and radial arterial catheters, patients were randomized to receive 50, 100 or 150 mg of flosequinan daily. Hemodynamic variables were measured immediately before and after short-term flosequinan administration and after 8 weeks of therapy.

RESULTS

With short-term flosequinan administration, mean arterial, right atrial and left ventricular filling pressures decreased by 6.4 +/- 1.1, 3.8 +/- 0.5 and 7.3 +/- 0.7 mm Hg, respectively (all p < 0.001). Cardiac index increased by 0.5 +/- 0.1 liters/min per m2, systemic vascular resistance decreased by 616 +/- 105 dynes.s.cm-5 and heart rate increased by 4 +/- 1 beats/min (all p < 0.001). After 8 weeks of long-term flosequinan administration, the vasodilator effect of a dose of flosequinan persisted. Compared with pretreatment baseline values, mean arterial, right atrial and left ventricular filling pressures at the peak effect of flosequinan were decreased by 3.5 +/- 1.3, 2.8 +/- 0.7 and 5.1 +/- 1.3 mm Hg, respectively (all p < 0.01). Systemic vascular resistance had decreased by 585 +/- 95 dynes.s.cm-5, cardiac index had increased by 0.5 +/- 0.1 liters/min per m2 and heart rate had increased by 10 +/- 2 beats/min (all p < 0.001).

CONCLUSIONS

The arterial and venous vasodilator flosequinan exerts both short- and long-term sustained hemodynamic effects in patients with heart failure receiving angiotensin-converting enzyme inhibitors.

Acute and long-term effects of flosequinan in patients with chronic cardiac failure

The acute and long-term effects of the orally active vasodilator flosequinan were assessed in 10 patients with New York Heart Association class II to IV cardiac failure. Baseline hemodynamics, exercise capacity, left and right ventricular ejection fraction, and pulmonary transit time were measured by right cardiac catheterization, bicycle ergometer stress testing, and nuclear angiocardiography during a run-in period on placebo. Acute hemodynamic effects of flosequinan were monitored for 48 hours; the drug was then given as a single 100 mg daily dose for 6 weeks. Exercise capacity was reevaluated every 2 weeks, and right cardiac catheterization and nuclear angiocardiography were repeated at the end of the 6-week period. Placebo did not exert any effect. Flosequinan reduced right atrial, pulmonary artery, and pulmonary artery wedge pressures from 60 minutes to 48 hours after dosing. Heart rate was minimally increased. Cardiac index, mean systemic arterial pressure, and systemic and pulmonary vascular resistance were substantially unaffected. These effects were maintained after 6 weeks. Exercise capacity was enhanced after 2, 4, and 6 weeks. Left ventricular ejection fraction was unchanged, whereas right ventricular ejection fraction and pulmonary transit time were improved. In conclusion, flosequinan exerted a potent, long-lasting, venodilating effect that was maintained long-term, without evidence of tolerance.

Effect of isosorbide dinitrate on cardiac output in severe cardiac failure: relation to initial hemodynamics, ventricular volume, and the preload reserve mechanism

Isosorbide dinitrate (ISDN) improves the clinical and hemodynamic state of patients with heart failure, but may cause dizziness and syncope. To characterize patients in whom cardiac output falls with high-dose nitrate therapy and to examine further the pathophysiology of the fall in cardiac output in these patients, we studies the effect of sublingual ISDN on forward cardiac output in 14 patients with severe cardiac failure (New York Heart Association grades 3-4). We examined systolic and diastolic left ventricular (LV) function from pressure and volume analyses of LV function. After administration of 15 mg ISDN, cardiac output was either unaltered or increased in 7 patients (Group 1) (11 +/- 12%, mean +/- SD), and decreased in 7 (Group 2) (-13 +/- 10%) (Group 1 vs. 2, p less than 0.002). Initial systemic arterial pressure, LV ejection fraction, wedge and LV transmural filling pressures were similar in both groups, but Group 2 patients had a lower systemic vascular resistance (p = 0.07) and tended to have a larger initial LV end-diastolic volume and increased end-diastolic compliance; following ISDN the decrease in LV filling pressure and end-diastolic volume was larger and the product of the changes greater (p less than 0.02). Thus ISDN decreases filling pressure and improves forward cardiac output in some patients with congestive heart failure, but large doses may decrease cardiac output in a subset of patients who have a lower systemic vascular resistance and a larger more compliant ventricle, maintaining forward blood flow predominantly by a preload reserve mechanism.(ABSTRACT TRUNCATED AT 250 WORDS)

Hemodynamic effects of nitroglycerin in an experimental model of acute aortic regurgitation

Afterload reduction is an accepted therapeutic modality for the treatment of congestive heart failure caused by chronic aortic regurgitation. However, the role of vasodilator therapy in acute aortic incompetence has not been established. To investigate this, left ventricular volume overload was produced in 18 dogs by constructing a valved conduit from the descending thoracic aorta to the left ventricular apex. The time course of aortic, pulmonary and conduit flows was analyzed in eight control studies and established stability of the experimental model. In the remaining 10 dogs, intravenous nitroglycerin, titrated to reduce mean aortic blood pressure by 40%, and placebo (ethanol) were each infused for 20 min periods. Compared with placebo, nitroglycerin significantly reduced aortic flow (3,945 +/- 324 to 3,397 +/- 362 ml/min, p less than 0.01), regurgitant flow (1,304 +/- 131 to 764 +/- 90 ml/min, p less than 0.001), septal-lateral end-diastolic diameter (47.5 +/- 1.8 to 46.5 +/- 1.8 mm, p less than 0.001), left ventricular end-diastolic pressure (6.9 +/- 0.8 to 6.0 +/- 0.6 mm Hg, p less than 0.05), left ventricular stroke work (19.0 +/- 2.6 to 10.8 +/- 1.7 g-m/beat, p less than 0.001) and systemic vascular resistance (2,253 +/- 173 to 1,433 +/- 117 dyne-s/cm5, p less than 0.001). In contrast, pulmonary flow, left anterior descending coronary flow and subendocardial pH did not change during infusion of either nitroglycerin or placebo. These data indicate that by decreasing preload and afterload, and by preserving coronary flow and tissue pH, nitroglycerin effectively reduced ventricular and regurgitant volumes in the setting of acute volume overload.(ABSTRACT TRUNCATED AT 250 WORDS)

Acute haemodynamic effects of nifedipine in patients with ventricular septal defect

The haemodynamic effects of nifedipine were studied in 14 patients (aged 8-14 years, seven male and seven female) with ventricular septal defect with and without pulmonary hypertension. All underwent left and right heart catheterisation. In each patient the pressures and heart rate were measured and blood samples were taken for oximetry before and after sublingual administration of 10 mg nifedipine. In eight patients with ventricular septal defect without pulmonary hypertension (mean pulmonary artery pressure less than 20 mm Hg) nifedipine significantly reduced the mean aortic pressure and systemic vascular resistance, and significantly increased heart rate. The other haemodynamic indices did not change significantly. In six patients with ventricular septal defect complicated by pulmonary hypertension (mean pulmonary artery pressure greater than 20 mm Hg) nifedipine significantly increased systemic output, stroke volume, and heart rate, and significantly reduced systemic vascular resistance and the pulmonary to systemic flow ratio. The other haemodynamic indices did not change significantly. Nifedipine had a beneficial effect in patients with ventricular septal defect complicated by pulmonary hypertension. It reduced the left to right shunt and increased the stroke volume. This effect was not seen in patients with ventricular septal defect uncomplicated by pulmonary hypertension.

Hemodynamic effects of oral isosorbide-5-mononitrate and dinitrate in ischemic heart failure

Isosorbide-5-mononitrate (ISMN), the main metabolite of isosorbide dinitrate (ISDN) was recently introduced in clinical use. The hemodynamic effects of oral ISMN and ISDN, administered in equal doses, were studied in a randomized, crossover fashion in 20 patients with pump failure of ischemic etiology. Baseline hemodynamic criteria for admission into the study were: pulmonary capillary wedge pressure (PCW) of at least 20 mmHg and systolic arterial pressure (AP) above 90 mmHg. Hemodynamic parameters were serially measured and systemic vascular resistance was calculated up to 6 h postadministration of either ISMN or ISDN single dose (40 mg). Maximal effects obtained were statistically significantly different from baseline. While ISMN and ISDN appeared to be equipotent in reducing the filling pressure, with a maximum effect reached in 60-120 min, the mononitrate maintained its effects for a longer period.

Cardiac energetics after intravenous enoximone in idiopathic dilated cardiomyopathy

The acute effects of enoximone on left ventricular (LV) function, myocardial oxygen metabolism and central and systemic hemodynamics were investigated in 12 patients with idiopathic dilated cardiomyopathy. Enoximone was administered intravenously at a rate of 12.5 mg/min; the average dose was 1.42 mg/kg. LV systolic pressure decreased significantly (p less than 0.01) from 128 +/- 18 to 96 +/- 16 mm Hg (mean +/- standard deviation), LV end-diastolic pressure from 16 +/- 3 to 5 +/- 3 mm Hg, LV end-diastolic volume from 288 +/- 43 to 210 +/- 58 ml, LV end-diastolic wall stress from 33 +/- 15 to 11 +/- 5 10(3) dynes/cm2 and LV peak systolic wall stress from 243 +/- 73 to 159 +/- 42 10(3) dynes/cm2. Heart rate increased from 86 +/- 18 to 100 +/- 20 beats/min, ejection fraction from 43 +/- 7 to 52 +/- 14% (p less than 0.05). Cardiac index, stroke volume index and dP/dtmax did not change significantly. Systemic vascular resistance decreased significantly (p less than 0.01) from 1,311 +/- 444 to 1,027 +/- 356 dynes s cm-5, mean pulmonary artery pressure from 13 +/- 6 to 8 +/- 2 mm Hg, mean right atrial pressure from 4 +/- 2 to 2.6 +/- 2 mm Hg and mean arterial pressure from 95 +/- 13 to 74 +/- 13 mm Hg.(ABSTRACT TRUNCATED AT 250 WORDS)

Hemodynamic effects of BTS 49465, a new long-acting systemic vasodilator drug, in patients with severe congestive heart failure

The hemodynamic effects of BTS 49465, a new oral, direct-acting systemic vasodilator drug, were investigated in 10 patients with severe chronic congestive heart failure. One to 2 hours after the administration of 1.5 mg/kg orally, BTS 49465 produced significant increases in cardiac index, stroke volume index, and stroke work index (26%, 27%, and 23%, respectively, p less than 0.01 to 0.001) and marked decreases in left ventricular filling pressure (-12.6 mm Hg, 44%), mean pulmonary artery pressure (-13.2 mm Hg, 31%), and mean right atrial pressure (-7.7 mm Hg, 63%), all p less than 0.001, without significant changes in heart rate. These hemodynamic responses were accompanied by notable declines in systemic vascular resistance (-28%, p less than 0.001) and pulmonary arteriolar resistance (-24%, p less than 0.05). These effects persisted throughout the 24-hour period of observation. The decline in left ventricular filling pressure in our patients ranged in magnitude from 8 to 21 mm Hg, and varied linearly and directly with pretreatment values for left ventricular filling pressure (r = 0.69). The decrease in systemic vascular resistance ranged in magnitude from 3% to 40% and varied linearly and directly with pretreatment values for systemic vascular resistance (r = 0.85). These data indicate that BTS 49465, a new oral, direct-acting vasodilator agent, exerts balanced cardiocirculatory effects in patients with severe chronic heart failure, which may be sustained with once-daily oral administration.

Effects of six-month afterload reduction therapy with hydralazine in chronic aortic regurgitation

Seventeen patients with chronic asymptomatic aortic regurgitation (AR) were studied to determine whether 6 months of hydralazine therapy can reduce the severity of AR or reverse left ventricular (LV) enlargement and hypertrophy. Echocardiography, radionuclide angiography at rest and during exercise, and maximal treadmill exercise with respiratory gas analysis were performed at intake and after a 6-month double-blind treatment period. After dose titration with hydralazine, patients were randomized to their maximal tolerated hydralazine dose or to placebo. At intake, hydralazine and placebo groups were similar. Six patients taking hydralazine and 8 taking placebo completed the study protocol. One patient taking placebo died and 2 patients taking hydralazine withdrew with drug-related adverse effects. The mean titrated dose of hydralazine was 96 +/- 9 mg, but the mean treatment dose was 63 +/- 21 mg administered 3 times daily because of drug intolerance. After 6 months, mean systolic blood pressure with hydralazine therapy decreased from 136 to 125 mm Hg (p less than 0.02), and end-systolic posterior wall thickness increased from 1.58 to 1.70 cm (p less than 0.05), resulting in a significant reduction in M-mode meridional end-systolic stress (from 104 to 80 kdynes/cm2) (p less than 0.05). M-mode fractional shortening increased from 0.28 to 0.31 (p less than 0.05) with hydralazine, but mean LV echocardiographic dimensions were unchanged. LV mass increased from 383 to 434 g (p less than 0.05) with hydralazine primarily because of an increase in end-diastolic wall thickness. In the placebo group, there was no change in any of the hemodynamic or echocardiographic parameters at 6 months.(ABSTRACT TRUNCATED AT 250 WORDS)

Mechanisms of nitrate action in patients with severe left ventricular failure: conceptual problems with the theory of venosequestration

Nitroglycerin and other organic nitrates exert a number of favorable effects on the circulation of patients with severe congestive heart failure, and these effects mediate the short- and long-term hemodynamic and clinical improvement that follows treatment with these drugs. Although these agents are potent dilators of systemic venous capacitance vessels, present evidence indicates that they do not exert their beneficial hemodynamic and clinical effects by decreasing venous return to the heart. Rather, their ability to dilate pulmonary and systemic resistance vessels offsets any decrease in cardiac output that might be expected to occur from a decrease in venous return. Of equal importance, the increase in output of the left side of the heart that results from drug-induced pulmonary and systemic vasodilation prevents any decrease in venous return to the right side of the heart that might be expected to accompany an increase in systemic venous capacitance. The net effect of these two interacting forces is not only to keep cardiac output and venous return constant but also to translocate blood volume from the pulmonary circulation and left ventricle to the systemic vessels. In addition, nitrates also relieve subendocardial ischemia and favorably alter pressure-volume relationships in the left ventricle. These observations support the conclusion that the complex cardiovascular responses to organic nitrates in patients with congestive heart failure cannot be adequately summarized by the single concept of preload reduction.

New concepts and drugs in the treatment of congestive heart failure

This article seeks to make clear the basic differences in the treatment of heart failure between therapeutic maneuvers that are aimed at improving the mechanical loading conditions of the heart and those that are aimed at augmenting the fundamental contractile or inotropic state of the myocardium. Emphasis is placed on recognizing that treatment expectations must be viewed within an age- or maturity-dependent framework, since a diminished margin of cardiocirculatory reserve exists in the smallest and youngest patients that limits the extent of benefit that may be derived from diverse treatment approaches.

Conceptual dilemmas in the classification of vasodilator drugs for severe chronic heart failure. Advocacy of a pragmatic approach to the selection of a therapeutic agent

Two distinct systems of classifying vasodilator drugs have been developed over the past decade in an attempt to guide the choice of a therapeutic agent for the patient with severe heart failure, but the merits and utility of these systems have not been critically evaluated. Vasodilator drugs may be categorized according to their peripheral site of action: an agent may exert its effects preferentially on systemic arteries, systemic veins, or on both circulations. However, changes in the peripheral circulation cannot be directly translated into an improvement in central hemodynamic variables; furthermore, immediate hemodynamic responses may not be predictive of long-term clinical efficacy. Hence, there is no evidence that characterization of patients into hemodynamic subsets determined by the findings of right heart catheterization improves the clinical outcome of vasodilator therapy in chronic heart failure. An alternative classification system groups vasodilator drugs according to their mechanism of action: an agent may possess direct vasodilating effects or may exert its actions via selective neurohumoral inhibition. However, attempts to identify patients who might be most responsive to neurohumoral antagonism by measuring plasma renin activity or circulating levels of catecholamines before treatment have not been successful in predicting the clinical responses to therapy. Because neither system of drug classification provides the clinician with useful therapeutic guidelines, patients with severe heart failure appear to be best managed using a pragmatic approach in which specific drugs that produce predictable therapeutic benefits with a low frequency of side effects are utilized preferentially. Among presently available vasodilator agents, only captopril and oral isosorbide dinitrate have been shown to produce consistent hemodynamic and clinical improvement with an acceptable degree of adverse reactions.

Significance of systemic vascular resistance in determining the hemodynamic effects of hydralazine on large ventricular septal defects

The hemodynamic effects of hydralazine were studied in 17 infants and young children with ventricular septal defects to clarify the significance of systemic vascular resistance (SVR) in determining these effects. Patients with peak pulmonary arterial pressures greater than 75% of systemic pressure were placed in group I, which was further divided into group Ia (n = 6), consisting of those with a control SVR of 20 U.m2 or higher, and group Ib (n = 8), consisting of those with a lower SVR. Group II consisted of three patients with lower pulmonary arterial pressures. Intravenous injection of hydralazine (0.3 mg/kg) reduced SVR in all but two patients. The magnitude of reduction correlated with prehydralazine (control) SVR (r = .66, p less than .01). Systemic blood flow (Qs) increased from 3.7 +/- 0.7 to 5.0 +/- 0.8 l/min/m2 (p less than .005). The mean systemic arterial pressure for all patients decreased from 69 +/- 2 to 65 +/- 2 mm Hg (p less than .01) and the mean pulmonary arterial pressure decreased from the control value by 9 +/- 4% (p less than .01) in group I and by 17 +/- 1% in group II. Pulmonary blood flow (Qp) did not change significantly in either group. The Qp/Qs ratio was reduced from 3.6 +/- 0.4 to 2.4 +/- 0.2 (p less than .02) in group Ia. In sharp contrast, however, it increased from 2.6 +/- 0.3 to 3.3 +/- 0.5 (p = .06) in group Ib. The posthydralazine Qp/Qs ratio, expressed as percent of the control value, inversely correlated with the control SVR (r = -.61, p = .02) in group I. The response was not different in the group II patients. Thus, we conclude that control SVR is important for prediction of the hemodynamic effects of afterload reduction by hydralazine in infants and young children with large ventricular septal defects, and that this drug may be beneficial in patients with high control SVRs since a high SVR brings about a decrease in the Qp/Qs ratio.

New perspectives on therapeutic application of nitrates as vasodilator agents for severe chronic heart failure

Although nitrates produce marked decreases in ventricular filling pressures in patients with severe heart failure, their therapeutic value has long been believed to be limited because they were thought to exert minimal arterial dilating effects. Recently, however, new conceptual approaches to vasodilator drugs have been developed that have challenged this traditional view. These new perspectives indicate that nitrates exert dilator actions on both the arterial and venous circulations, and reduce both preload and afterload; such balanced circulatory responses are particularly evident when large doses of these drugs are used. Cardiac output increases markedly with nitrates in patients with a greatly increased systemic vascular resistance before treatment or with significant mitral regurgitation. The major reason for the limited increases in cardiac output noted in previous studies is the inclusion of patients with heart failure whose pretreatment values for cardiac output were within normal limits; in these persons nitrates markedly activate neurohumoral vasoconstrictor mechanisms that counteract the arterial dilating actions of these drugs. Long-term nitrate therapy attenuates exercise-induced increases in pulmonary venous pressures, which permit patients to undergo repeated submaximal exercise with fewer symptoms; this improves physical conditioning and exercise capacity, even in the absence of drug-related changes in cardiac output. The long-term hemodynamic and clinical benefits of nitrates in heart failure have been confirmed by two independent randomized double-blind placebo-controlled clinical trials.

Intravenous isosorbide dinitrate in patients with refractory pump failure and acute myocardial infarction

We studied the hemodynamic effects of isosorbide dinitrate administered by continuous i.v. infusion to 22 patients with chronic refractory pump failure and 18 with pump failure due to acute myocardial infarction. In patients with severe pump failure, i.v. ISDN markedly decreased pulmonary capillary wedge pressure (p less than 0.001), moderately increased cardiac output (p less than 0.01), and decreased systemic vascular resistance (SVR) (p less than 0.001). There were no deleterious effects on arterial pressure and heart rate. The effects obtained in acute and chronic left ventricular failure were similar. Patients with initial SVR levels lower than 1500 dyn-sec-cm-5 did not significantly increase their cardiac output (p less than 0.005). Cardiac output increased more than 25% only in patients with initial high SVR levels (greater than 2000 dyn-sec-cm(-)5). Positive correlations were found between high SVR and elevated plasma catecholamines (r = 0.53, p less than 0.05) and between the initial SVR and initial heart rate (r = 0.70, p less than 0.01). The i.v. administration of isosorbide dinitrate appears to be an efficient therapy, particularly in selected patients with ischemic pump failure.

Bioavailability of organic nitrates: a comparison of methods for evaluating plethysmographic responses

Erythrityl tetranitrate, a long-acting organic nitrate, was compared with isosorbide dinitrate in a double-blind, placebo-controlled complete crossover study in 15 healthy male volunteers. A digital plethysmogram and ear densitogram were used to assess the physiologic response to these two sublingual nitrates, with the intensity and duration of drug effect calculated by differences in diastolic amplitude intensity before and after drug administration. Both 5 mg sublingual erythrityl tetranitrate and 5 mg isosorbide dinitrate produced significant increases in diastolic amplitude intensity for up to 3 hours. The erythrityl tetranitrate peak effect was less than that of the isosorbide dinitrate, but the incidence of headaches was also less. The ear densitogram was found to be an effective means of assessing the diastolic amplitude intensity changes.

Physiologic and pharmacologic determinants of vasodilator response: a conceptual framework for rational drug therapy for chronic heart failure

This article has attempted to summarize the increasing number of pharmacologic and physiologic variables that are being recognized as important determinants in the response to vasodilator therapy in patients with severe chronic heart failure. It is apparent that a careful consideration of many factors is necessary before proper selection of a specific drug can be made for a specific patient, since not all patients with refractory heart failure demonstrate beneficial hemodynamic and clinical responses to all agents. Each patient presents us with a unique set of physiologic variables; each drug has its own advantages and limitations. Identification of those subgroups of patients most likely to benefit from a specific agent or combination of agents is a major goal for future research. Although a number of hemodynamic variables can be made to improve acutely with a wide variety of vasodilator drugs, well tolerated sustained meaningful clinical benefits are probably observed in relatively few patients. Rational and successful vasodilator therapy is possible only through a highly individualized approach.

Problems in assessment of new pharmacologic agents for the heart failure patient

Modern management of congestive heart failure (CHF) employs inotropic drugs, vasodilators, and diuretics. Although pharmacologic classification of drugs is possible in animals, identification of predominant hemodynamic mechanisms in humans is more complex, because many effects of vasodilators and inotropic drugs are similar. We compared the effects of a vasodilator, prazosin, and two agents with both inotropic and vasodilatory properties, amrinone and pirbuterol, on cardiac index (CI), mean aortic pressure, left ventricular stroke work index (LVSWI), LV filling pressure (LVFP), systemic vascular resistance, LV ejection fraction (LVEF), and myocardial O2 consumption (MVO2) in 34 patients with advanced CHF. We concluded that (1) a rise in CI and LVEF, together with a fall in LVFP, does not necessarily indicate an inotropic effect; (2)both CI and LVEF may be increased by an inotropic mechanism in advanced CHF without a rise in MVO2; and (3) a drug-induced rise in LVSWI with stable or lower LVFP suggests an inotropic mechanism of action.

Determinants of drug response in severe chronic heart failure. 1. Activation of vasoconstrictor forces during vasodilator therapy

Vasodilator drugs activate neurohumoral forces that produce peripheral vasoconstriction and tachycardia and probably cause the rebound events observed upon abrupt withdrawal of therapy. To determine their role in limiting therapeutic vasodilator responses, these reactive forces were measured in 40 patients with severe chronic heart failure by quantifying the magnitude of rebound change (MRC) after nitroprusside withdrawal. Group 1 patients (n = 22), who had minimal reactive vasoconstriction (MRC less than or equal to 27%), showed marked hemodynamic effects with nitroprusside (4.5 microgram/kg/min) and isosorbide dinitrate (40 mg orally), associated with significant decreases in heart rate with both drugs (p less than 0.001). Despite administration of the same doses of both drugs, group 2 patients (n = 18), who had marked rebound changes (MRC greater than 27%), showed significantly smaller changes in cardiac index, systemic vascular resistance and mean arterial pressure (p less than 0.001), associated with no change or increases in heart rate. Rebound events were attenuated and the responses to nitroprusside and nitrates were enhanced in four patients in whom these drugs were readministered after pretreatment with i.v. phentolamine (0.3mg/min). We conclude that activation of neurohumoral forces can limit the hemodynamic responses to vasodilator administration; this supports the use of combination therapy of direct-acting vasodilators and neurohumoral antagonists in selected patients with severe chronic heart failure.

Comparison of the effects of dopamine, hydralazine, and isosorbide dinitrate on myocardial hemodynamics in patients with refractory heart failure

Nine patients with refractory congestive heart failure underwent hemodynamic study first with dopamine and then with oral hydralazine and sublingual isosorbide dinitrate. Although hemodynamic improvement was achieved with both forms of therapy, the beneficial effects of hydralazine alone or with isosorbide were superior to those of dopamine, as manifested by a greater reduction of wedge pressure and greater increase in stroke index. Six patients who demonstrated an increased wedge pressure during dopamine infusion were observed to manifest a louder apical systolic murmur and/or V wave in the wedge pressure tracing suggestive of enhanced mitral regurgitation. The rise in wedge pressure on dopamine could also be a consequence of increased myocardial ischemia and resultant decrease in ventricular compliance. It is possible that a subgroup of patients with heart failure are made worse by dopamine, and in these cases vasodilator therapy may be more beneficial.

Effect of diuresis on the performance of the failing left ventricle in man

To determine the effect of diuresis on the performance of the failing left ventricle, we measured cardiac output, pulmonary wedge pressure and M-mode echo left ventricular diastolic dimension before and after diuresis in 13 patients with heart failure. Diuresis increased stroke volume (43 +/- 23 ml to 50 +/- 18 ml (p less than 0.05)) and decreased pulmonary wedge pressure (28 +/- 3 mm Hg to 19 +/- 5 mm Hg (p less than 0.01)), mean blood pressure (100 +/- 14 mm Hg to 88 +/- 10 mm Hg (p less than 0.01)) and systemic vascular resistance (2,059 +/- 622 dynes-sec-cm-5 to 1,783 +/- 556 dynes-sec-cm-5 (p less than 0.05)). Echo left ventricular diastolic dimension was not changed by diuresis (6.0 +/- 0.8 cm to 6.0 +/- 0.8 cm). Percent change in stroke volume correlated with systemic vascular resistance (r = 0.60, p less than 0.05) and with left ventricular diastolic dimension (r = 0.62, p less than 0.05) but not with pulmonary wedge pressure (r = 0.12) or right atrial pressure (r = 0.04). Thus, diuresis improved the performance of the failing ventricle and reduced afterload, but it did not alter left ventricular diastolic dimension, an index of preload. These data suggest that diuresis improves ventricular function by decreasing afterload.

Beneficial effects of hydralazine on rest and exercise hemodynamics in patients with chronic severe aortic insufficiency

We studied the effects of afterload reduction in chronic severe aortic insufficiency by measuring the hemodynamic response to oral hydralazine in 10 consecutive patients. Hemodynamics were also measured during maximal exercise in eight of these patients. At rest, hydralazine reduced pulmonary artery wedge pressure from 14 to 9 mm Hg (p less than 0.01), and increased cardiac index by 70% and stroke volume index by 35% (both p less than 0.001). Before hydralazine, pulmonary artery wedge pressure exceeded 20 mm Hg in five patients during maximal exercise; with hydralazine, at identical levels of exercise, pulmonary artery wedge pressure remained below 20 mm Hg in all patients. For the group, hydralazine reduced pulmonary artery wedge pressure from 21 to 12 mm Hg (p less than 0.05) and increased cardiac index by 31% (p less than 0.05) during exercise; changes in stroke volume index were more variable and there was no significant increase for the group, although several patients increased stroke volume substantially and the overall increase was 34%. These data show that afterload reduction has beneficial effects on cardiac performance in chronic severe aortic insufficiency both at rest and during exercise. Hydralazine may be of use in such patients either in preparation for valve replacement or as interim therapy.

Noninvasive assessment of load reduction in patients with asymptomatic aortic regurgitation

Afterload reduction in chronic asymptomatic aortic regurgitation might retard left ventricular enlargement and hypertrophy and, consequently, delay the onset of myocardial dysfunction and the need for surgical intervention. Since afterload is best expressed as wall stress, the effect of nitroglycerin on wall stress was determined in 10 normal subjects and in eight asymptomatic subjects with aortic regurgitation and normal left ventricular and circulatory function. Peak and end-systolic wall stress were estimated using a noninvasive echocardiographic technique. At rest, despite significantly larger left ventricular dimensions in the subjects with aortic regurgitation, peak systolic wall stress in this group (134 +/- 29 X 10(3) dynes/cm2) was similar to that in normal subjects (134 +/- 26 X 10(3) dynes/cm2). In contrast, end-systolic wall stress was higher in aortic regurgitation (84 +/- 12 versus 59 +/- 15 X 10(3) dynes/cm2) (P less than 0.01). Following the administration of nitroglycerin, the subjects with aortic regurgitation had larger reductions in left ventricular end-diastolic (3.5 mm) and end-systolic (3.1 mm) dimensions than did the normal subjects (0.6 and 1.1 mm, respectively), despite similar changes in blood pressure. This resulted in normalization of end-systolic wall stress and in reduction of peak systolic wall stress below normal in aortic regurgitation. We conclude that (1) nitroglycerin offers a simple and effective means of acutely reducing afterload in asymptomatic aortic regurgitation; (2) left ventricular dimensional changes after the administration of nitroglycerin are larger in subjects with aortic regurgitation than in normal subjects. Consequently, unloading therapy may be effective in protecting the left ventricle in this disorder.

Hemodynamic assessment of amrinone. A new inotropic agent

Amrinone, a new bipyridine derivative, exerts a positive inotropic action in experimental preparations and is effective when administered orally to dogs. To assess its immediate effects in man, we studied by cardiac catheterization the hemodynamic responses to amrinone (1.85 to 3.5 mg per kilogram given intravenously) in eight patients with congestive heart failure already receiving full doses of digitalis. the following statistically significant (P less than 0.01) effects were noted: cardiac index increased from a mean +/- 1 S.D. of 1.8 +/- 0.3 to 2.6 +/- 0.3 liters per minute per square meter; peak rate of left ventricular pressure rise rose from 849 +/- 233 to 1206 +/- 456 mm Hg per second; left ventricular end-diastolic pressure fell from 25 +/- 9 to 14 +/- 7 mm Hg; pulmonary-capillary pressure fell from 28 +/- 8 to 15 +/- 4 mm Hg; and right atrial pressure fell from 12 +/- 6 to 7 +/- 5 mm Hg. Mean heart rate was unchanged, and aortic mean pressure declined slightly (86 +/- 10 to 80 +/- 7 mm Hg, P less than 0.025). No toxicity was observed. Amrinone, whose mechanism of action has not yet ben defined, warrants further study as a possible treatment for heart failure.