Philip C. Kirlin

Neurohumoral activation during exercise in congestive heart failure.

Neurohumoral factors were assessed in 14 subjects with chronic, stable New York Heart Association functional class II or III congestive heart failure and nine comparably aged normal subjects at rest and during moderate (50 W) and strenuous (100 W) upright exercise. Heart failure was associated with elevated plasma renin activity and plasma antidiuretic hormone (ADH) concentrations at rest. However, plasma renin activity almost doubled (from 4.7 +/- 0.6 to 8.4 +/- 1.1 ng/ml per hour) during strenuous exercise in subjects with heart failure, and changed only minimally in normal control subjects. Plasma ADH concentration did not change during exercise in the presence of heart failure, but rose in normal subjects during strenuous exercise to levels comparable to those of subjects with heart failure. Similar plasma osmolality values were present in both groups. Circulating norepinephrine concentrations were insignificantly elevated by heart failure both at rest and during exercise, and plasma epinephrine concentrations were similar. These findings suggest independent neurohumoral activation during exercise in the presence of congestive heart failure, with predominant activation of the renin-angiotensin-aldosterone axis.

Hemodynamic effects of intravenous prenalterol in severe heart failure.

Nine patients with chronic severe low output heart failure (radionuclide left ventricular ejection fraction 17 +/- 5 percent [mean +/- standard deviation], left ventricular filling pressure 26 +/- 6 mm Hg, cardiac index 1.9 +/- 0.4 liters/min per m2, left ventricular stroke work index 18 +/- 6 g-m/m2) from various causes were treated with intravenous prenalterol (a new catecholamine-like inotropic agent) in doses of 1,4 and 8 mg. Significant hemodynamic improvement occurred as measured by increased left ventricular ejection fraction (to 26 +/- 4 percent), decreased left ventricular filling pressure (to 21 +/- 8 mm Hg) and increased cardiac index (to 2.4 +/- 0.6 liters/min per m2) and left ventricular stroke work index (to 25 +/- 8 g-m/m2). Significant increases in heart rate (from 87 +/- 18 to 91 +/- 18 beats/min) and mean systemic arterial pressure (from 87 +/- 8 to 92 +/- 7 mm Hg) also occurred. Peak hemodynamic response occurred at various doses. Significant adverse effects associated with prenalterol consisted of increased ventricular ectopic beats in two patients and asymptomatic ventricular tachycardia in two patients. Thus, intravenous prenalterol produces hemodynamic improvement in patients with a chronic severe low output state but may be associated with increased ventricular ectopic activity.

Characteristics of peak aerobic capacity in symptomatic and asymptomatic subjects with left ventricular dysfunction

Expired gas analysis was used to determine the aerobic exercise performance of subjects with depressed left ventricular (LV) systolic function and congestive heart failure (CHF). To determine whether subjects with no or minimal CHF have better aerobic exercise performance than do those with overt CHF, oxygen consumption (VO2) at anaerobic threshold (AT) and peak exercise was measured in 184 subjects with LV ejection fraction less than or equal to 0.35 who participated in the Studies of Left Ventricular Dysfunction. Subjects were divided into those with overt CHF needing treatment (treatment trial; n = 20) and those who had neither overt CHF nor treatment for CHF (prevention trial; n = 164). Treatment trial subjects had a lower LV ejection fraction (0.25 +/- 0.07) than did prevention trial ones (0.29 +/- 0.05; p = 0.001), but there were no differences in age, gender, body weight, resting heart rate and blood pressure. Treadmill exercise testing was performed after 2 to 3 weeks of placebo (no angiotensin-converting enzyme inhibitor) treatment. Treatment trial subjects exercised for a shorter time (493 +/- 160 seconds) and attained a lower peak VO2 (13 +/- 4 ml/kg/min) and VO2 at AT (11 +/- 4 ml/kg/min) than did prevention trial ones (842 +/- 277 seconds, and 20 +/- 6 and 16 +/- 5 ml/kg/min, respectively). Analysis of covariance showed that the differences in peak VO2 and VO2 at AT were statistically significant between the 2 trials after adjusting for age, gender, LV ejection fraction and New York Heart Association functional class.(ABSTRACT TRUNCATED AT 250 WORDS)

Ibuprofen-mediated infarct size reduction: Effects on regional myocardial function in canine myocardial infarction

Normal, marginal, and central ischemic regional myocardial function were evaluated in a canine model of myocardial infarction during 90 minute left circumflex coronary artery occlusion in 25 anesthetized dogs randomly assigned to intravenous ibuprofen infusion (n = 13,5.36 mg/kg/h beginning 1 hour before occlusion) or vehicle solution as control (n = 12) and in 15 conscious, unsedated dogs 48 and 72 hours after 90 minute circumflex artery occlusion followed by reperfusion (ibuprofen, 5.36 mg/kg/h by intravenous infusion over 7 hours beginning 1 hour before occlusion, n = 7; or vehicle solution infusion as control, n = 8). Miniature subendocardial sonomicrometer crystal pairs were used to calculate left ventricular regional end-diastolic segment length, end-systolic segment length, and regional percent systolic shortening. Infarct size was estimated in 72 hour animals by a postmortem dual perfusion technique using triphenyltetrazolium histochemical dye and Evan’s blue dye for determination of infarct area, risk area, and area not at risk. Ibuprofen treatment significantly reduced infarct size expressed as percent of risk area (mean f standard deviation of 44.6 f 18 versus 64.4 f 16% for control dogs, p <0.05) but it did not improve normal, marginal, or ischemic region end-diastolic length, end-systolic length or percent systolic shortening during coronary occlusion in anesthetized dogs or after reperfusion in conscious animals at 48 and 72 hours, and it did not enhance inotropic reserve at 72 hours in conscious animals. During 90 minute circumflex occlusion in anesthetized dogs, ibuprofen was associated with increases in systemic arterial pressure and worsened ischemic regional percent systolic shortening. Thus, ibuprofen does not improve normal, marginal, or ischemic zone regional myocardial function during acute ischemia or 48 or 72 hours after myocardial reperfusion despite a significant reduction of infarct size.

Neurohumoral Variability in left Ventricular Dysfunction

Abstract The immediate and longer term variability of selected vasoactive- and volume-regulating neurohormones were measured in patients entering a substudy of the Studies of Left Ventricular Dysfunction—a randomized clinical trial in patients with left ventricular ejection fraction

Comparative effects of prenalterol and dobutamine in a canine model of acute ischemic heart failure

Summary The hemodynamic effects of the inotropic agents prenalterol and dobutamine were compared in a canine model of acute ischemic heart failure following two-vessel coronary artery constriction. Intravenous infusions of both inotropic agents resulted in improvement of cardiac output, left ventricular maximum dP/dt, and contractile force in the nonischemic zone and in a decrease in systemic vascular resistance. No significant changes occurred in ischemic zone contractile force or left ventricular end-diastolic pressure following either inotropic agent compared to saline controls. Significant differences between the two inotropic agents consisted of prenalterols markedly longer duration of action (hemodynamic half life of 3 hr after discontinuation compared to a value of 1.7 min after dobutamine discontinuation) and greater augmentation of cardiac output at high-dose dobutamine due to greater increases in heart rate. However, similar hemodynamic effects were noted with prenalterol and dobutamine at doses which increased nonischemic contractile force 50%. Both inotropic agents were associated with ventricular arrhythmias in the acute ischemic state. Implications regarding the use of prenalterol and dobutamine in clinical acute ischemic low-output states are discussed.

Hemodynamic and myocardial metabolic effects of the β-agonist prenalterol in ischemic left ventricular dysfunction

Hemodynamic and myocardial metabolic parameters in ischemie left ventricular (LV) dysfunction were evaluated in response to the β-agonist prenalterol. Twenty (μg/kg intravenous prenalterol increased resting heart rate and cardiac output and decreased LV filling pressure, systemic vascular resistance, and pulmonary artery pressure. Resting coronary blood flow and myocardial oxygen consumption increased but net myocardial lactate and oxygen extraction did not change significantly. During pacing induced tachycardia (121 ± 4 beats/min), prenalterol improved cardiac index and stroke work index; whereas, LV filling pressure, systemic vascular resistance, and pulmonary artery pressure decreased. Coronary blood flow and myocardial oxygen extraction did not change significantly. Net myocardial lactate extraction during pacing decreased insignificantly; one patient developed overt lactate production. Thus, prenalterol improves cardiovascular function at rest and during pacinginduced tachycardia in ischemie LV failure, but at the cost of higher resting myocardial oxygen consumption. The majority of subjects had no adverse metabolic response.

Chronic alpha-adrenoceptor blockade with trimazosin in congestive heart failure

We evaluated chronic adjunctive alpha-1 receptor blockade with trimazosin in congestive heart failure. This agent produced hemodynamic effects consistent with venodilation (reduced left ventricular volume and filling pressure with increased left ventricular ejection fraction), but only during exercise. Resting hemodynamic parameters and exercise duration were not significantly altered by chronic alpha-1 receptor blockade.

Regional Myocardial Contractile Response to the Beta-Adrenergic Stimulant Prenalterol in the Conscious Dog following Myocardial Infarction

In order to assess regional myocardial contractile responses to the beta-adrenergic stimulant prenalterol after recent myocardial infarction, 9 male mongrel dogs underwent left circumflex coronary artery (LCX) occlusion after implantation of miniature subendocardial sonomicrometer crystals in normal, marginally ischemic (border) and central ischemic zones. 90-min LCX occlusion with reperfusion resulted in substantial infarction (mean +/- SEM 24 +/- 3% of total left ventricular area) and characteristic regional functional alterations. In conscious, unsedated animals 72 h after infarction, intravenous prenalterol (30 micrograms/kg) significantly decreased end-diastolic and end-systolic segment length and increased percent systolic shortening in normal and border zones, but did not alter ischemic zone function. Heart rate increased significantly with prenalterol. Regional myocardial function before drug administration correlated closely with response to the inotropic agent. These results indicate that the mechanism by which prenalterol improves cardiac function 72 h after myocardial infarction is stimulation of normal and marginally ischemic myocardium.