M L Weisfeldt

Exercise cardiac output is maintained with advancing age in healthy human subjects: cardiac dilatation and increased stroke volume compensate for a diminished heart rate.

To assess the effect of age on cardiac volumes and function in the absence of overt or occult coronary disease, we performed serial gated blood pool scans at rest and during progressive upright bicycle exercise to exhaustion in 61 participants in the Baltimore Longitudinal Study of Aging. The subjects ranged in age from 25 to 79 years and were free of cardiac disease according to their histories and results of physical, resting and stress electrocardiographic, and stress thallium scintigraphic examinations. Absolute left ventricular volumes were obtained at each workload. There were no age-related changes in cardiac output, end-diastolic or end-systolic volumes, or ejection fraction at rest. During vigorous exercise (125 W), cardiac output was not related to age (cardiac output [1/min] = 16.02 + 0.03 [age]; r = .12, p = .46). However, there was an age-related increase in end-diastolic volume (end-diastolic volume [ml] = 86.30 + 1.48 [age]; r = .47, p = .003) and stroke volume (stroke volume [ml] = 85.52 + 0.80 [age]; r = .37, p = .02), and an age-related decrease in heart rate (heart rate [beats/min] = 184.66 - 0.70 [age]; r = -.50, p = .002). The dependence of the age-related increase in stroke volume on diastolic filling was emphasized by the fact that at this high workload end-systolic volume was higher (end-systolic volume [ml] = 3.09 + 0.65 [age]; r = .45, p = .003) and ejection fraction lower (ejection fraction = 88.48 - 0.18 [age]; r = -.33, p = .04) with increasing age. These findings indicate that although aging does not limit cardiac output per se in healthy community-dwelling subjects, the hemodynamic profile accompanying exercise is altered by age and can be explained by an age-related diminution in the cardiovascular response to beta-adrenergic stimulation.

Echocardiographic assessment of a normal adult aging population.

Echocardiograms were performed on 105 male participants in the National Institute on Agings volunteer Longitudinal Study Program. All subjects (25-84 years of age) were physically active and had no evidence of hypertension or cardiovascular disease. Measurements were made of the initial diastolic (E-F) slope of the anterior mitral valve leaflet, the aortic and left ventricular cavity dimensions, and the thickness of the posterior left ventricular wall. Fractional shortening of the minor semi-axis of the left ventricle and the velocity of circumferential fiber shortening were also determined. It was found that increasing age correlated with a decreased mitral valve E-F slope and increased aortic root diameter and left ventricular wall thickness. Aging did not affect left ventricular cavity dimension, fractional shortening of the minor semi-axis, and velocity of circumferential fiber shortening. These findings suggest that aging in the normal male is associated with altered left ventricular diastolic filling, increased aortic root diameter and left ventricular hypertrophy but little change in contractile ability in the resting state.

Diminished Inotropic Response of Aged Myocardium to Catecholamines

The effect of advanced age on the response of active tension, maximal rate of tension development (dT/dt), and contraction duration to catecholamines and to calcium was evaluated in isometric trabeculae carneae from young adult (6-month-old), middle-aged (12-month-old), and aged (25-month-old) rats. Control values were not age dependent except for that for contraction duration which was prolonged in the aged group. At a norepinephrine concentration of 8 × 10−5M, dT/dt increased to 163.8 ± 5.3% of control in the young adult group and to 125.9 ± 6.3% of control in the aged group (P < 0.001).Active tension increased to 121.3± 4.0% of control in the young adult muscles but did not increase in the aged muscles (P < 0.01). Contraction duration shortened proportionately in both age groups. Similar results were obtained with isoproterenol. In contrast to the response to catecholamines, there was no age difference in the response of active tension and dT/dt to increasing concentrations of calcium. It is concluded that the intrinsic inotropic response to catecholamines is diminished in the aged myocardium. This finding does not appear to result from differences in tachyphylaxis, tissue uptake of catecholamines, or the ability of the contractile proteins to respond to increasing concentrations of calcium but instead may result from a decreased ability of catecholamines to increase the intracellular calcium available for contraction.

Prevalence and prognostic significance of exercise-induced silent myocardial ischemia detected by thallium scintigraphy and electrocardiography in asymptomatic volunteers.

Although a silent ischemic electrocardiographic response to treadmill exercise in clinically healthy populations is associated with an increased likelihood of future coronary events (i.e., angina pectoris, myocardial infarction, or cardiac death), such a response has a low predictive value for future events because of the low prevalence of disease in asymptomatic populations. To examine whether detection of reduced regional perfusion by thallium scintigraphy improved the predictive value of exercise-induced ST segment depression, we performed maximal treadmill exercise electrocardiography (ECG) and thallium scintigraphy (201Tl) in 407 asymptomatic volunteers 40-96 years of age (mean = 60) from the Baltimore Longitudinal Study on Aging. The prevalence of exercise-induced silent ischemia, defined by concordant ST segment depression and a thallium perfusion defect, increased more than sevenfold from 2% in the fifth and sixth decades to 15% in the ninth decade. Over a mean follow-up period of 4.6 years, cardiac events developed in 9.8% of subjects and consisted of 20 cases of new angina pectoris, 13 myocardial infarctions, and seven deaths. Events occurred in 7% of individuals with both negative 201Tl and ECG, 8% of those with either test positive, and 48% of those in whom both tests were positive (p less than 0.001). By proportional hazards analysis, age, hypertension, exercise duration, and a concordant positive ECG and 201Tl result were independent predictors of coronary events. Furthermore, those with positive ECG and 201Tl had a 3.6-fold relative risk for subsequent coronary events, independent of conventional risk factors.(ABSTRACT TRUNCATED AT 250 WORDS)

Myocardial injury and induction of arrhythmia by direct current shock delivered via endocardial catheters in dogs.

Although electrical ablation of ventricular tachycardia via percutaneous catheters has been recently accomplished in human beings, little is known of its pathologic or arrhythmogenic effects. We studied 21 open-chest anesthetized dogs in which an endocardial electrode catheter was percutaneously introduced into the left ventricle. Direct current (DC) shock was delivered by a standard defibrillator through the distal electrode to a back paddle. Cross-sectional two-dimensional echocardiographic studies were performed in the plane of the catheter (confirmed by epicardial metal beads), and blood flow was determined by the microsphere technique before DC shock and when the animals were killed 2 to 8 days later. Of 11 dogs receiving a total of 100 to 400 J, only three survived 48 hr compared with nine of 10 receiving 50 J and all three control dogs. Holter monitoring demonstrated sustained ventricular tachycardia (VT) (greater than or equal to 30 sec) in all 11 dogs monitored (six received greater than or equal to 100 J), beginning within 5 hr of the DC shock; three control dogs had no VT. Two dogs that died suddenly while being monitored showed ventricular fibrillation. Histologic examination revealed hemorrhagic contraction band necrosis in the shock zone, a type of injury similar to that observed in reperfusion necrosis. Necrosis of the left ventricle was 0.5% to 5%. There was no significant difference in necrosis between dogs receiving 100 J or more and those receiving 50 J (2.5 vs 1.7 g; p greater than .10). Percent systolic thickening determined in eight equally divided regions around the left ventricle showed no difference between the shock zone, perishock zone, or remote normal zone in dogs receiving 50 J.(ABSTRACT TRUNCATED AT 250 WORDS)

Mechanical properties of myocardium from hypertrophied rat hearts. A comparison between hypertrophy induced by senescence and by aortic banding.

Cardiac hypertrophy is a characteristic change that occurs in senescence. Muscles from senescent as compared to mature hearts also demonstrate functional alterations that are similar to the alterations found in muscles from experimentally hypertrophied hearts. Thus, an attractive hypothesis is that functional alterations in senescent muscles are related to the underlying hypertrophy. To test this hypothesis, we used a rat model of aging in which experimental hypertrophy was produced by aortic banding. The time course and extent of cardiac hypertrophy, as well as isometric twitch and viscoelasticity parameters, as a function of age, first were determined in muscles from the rat hearts. Aortic banding then was performed on middle-aged rats to produce the same extent of hypertrophy as seen in the senescent hearts. The resulting functional alterations in muscles from the banded (B) hearts were compared to the senescent (S) and middle-aged (M) muscles. Using tibia] length as a reference, we found 14% LV hypertrophy in senescent compared to both young and middle-aged rats, indicating that the hypertrophy occurred during the last quarter of life. The S muscles demonstrated a 25% prolongation in contraction duration (CD) and a 30% increase in slope of the active stiffness-tension line (oA) compared to both young adult and middle-aged muscles. Compared to middle-aged muscles, the B muscles demonstrated a similar spectrum of change in mechanical properties as the S muscles (8% increase in CD and 15% increase in aA), but the quantitative differences between the B and S muscles were significant. Over the functional range of developed tensions, the B muscles demonstrated the lowest and the S muscles the highest values of stiffness. The findings suggest that a portion of the mechanical property alterations seen in the senescent heart are due to the underlying hypertrophy. However, the hypertrophy produced by mechanical loading of the LV cannot explain all of the senescent changes. Circ Res 46: 292-300, 1980.

Incomplete filling and incoordinate contraction as mechanisms of hypotension during ventricular tachycardia in man.

We sought to determine mechanisms for decrease of cardiac output and for hypotension during ventricular tachycardia (VT) in man. Two-dimensional and M mode echocardiograms and left ventricular pressure from micromanometer-tipped catheters were obtained in 20 patients before, during, and at the end of induced hypotensive VT. Patients were divided into two groups according to left ventricular function in sinus rhythm as assessed by angiographic ejection fraction (EF) before electrophysiologic study. Group 1 (n = 8) had angiographic EF greater than or equal to 50% in normal sinus rhythm, and group 2 (n = 12) had EF less than or equal to 40%. During VT, left ventricular cavity volume (as indexed by short- and long-axis two-dimensional end-diastolic cavity areas) was markedly reduced in group 1, from 19.7 +/- 2 to 8.6 +/- 2 cm2 (p less than .001) and from 32.0 +/- 8 to 22.5 +/- 7 cm2 (p less than .001), respectively, but was only slightly reduced in group 2, from 34.1 +/- 6 to 31.5 +/- 7 cm2 (p = .044) and from 45.0 +/- 8 to 49.4 +/- 7 cm2 (p = NS), respectively. Conversely, left ventricular systolic function during VT (as indexed by fractional reduction in two-dimensional short- and long-axis areas) was markedly depressed in group 2, from 25.6 +/- 6% to 4.2 +/- 4% (p = .005) and from 13.7 +/- 3% to 1.8 +/- 0.8% (p less than .001), respectively, but remained at control levels in group 1. Left ventricular end-diastolic pressures increased in group 1, from 11.8 +/- 2 to 27.7 +/- 8 mm Hg (p = .005) and did not change in group 2 during VT. Pressure-dimension loops from left ventricular pressure and M mode echocardiographically determined cavity dimensions generated from the end of the VT episodes showed that diastolic pressure-dimension relationships returned to control levels with the first prolonged diastolic interval in group 1 patients, indicating that incomplete relaxation was the mechanism responsible for reduction of cardiac output during VT in these patients. Coordination of contraction and relaxation (indicated by the percent ratio of the pressure-dimension loop area to the area of the rectangle just enclosing the loop) decreased from 37 +/- 11% to 16 +/- 13% in group 2 patients during VT (p = .013) but remained at control levels in group 1 patients. Thus, during VT patients with impaired left ventricular function in sinus rhythm (group 2) developed severe discoordination, and patients with normal or near-normal function (group 1) developed incomplete relaxation to account for stroke volume deterioration and hypotension.

Variables predictive of successful medical therapy in patients with unstable angina: selection by multivariate analysis from clinical, electrocardiographic, and angiographic evaluations.

Although unstable angina can be initially controlled with medical therapy in most patients, there is a high incidence of subsequent death, myocardial infarction, or need for coronary bypass surgery to control symptoms. Identification at the time of presentation of the patient likely to do poorly on continued medical therapy would be useful in advising consideration of surgical therapy. Since coronary arterial spasm may have a significant role in the pathophysiology of unstable angina in some patients, the recently developed calcium channel antagonists may therefore be of particular benefit in the medical therapy of unstable angina. One hundred thirty-eight patients were entered into a randomized double-blind study of the efficacy of adding nifedipine to conventional treatment of unstable angina (nitrates and beta-blockers) and were followed for 18 months. Of these patients, 104 underwent coronary arteriography. A multivariate Coxs hazard function analysis was applied to variables selected from the history, electrocardiographic (ECG) changes during chest pain, and from scintigraphic and coronary arteriographic data to determine those variables most predictive of response to medical therapy. The percentage of the left ventricular myocardium supplied by vessels with 70% or greater luminal stenosis was the most significant variable in influencing failure of medical therapy defined as sudden death, myocardial infarction, or need for bypass surgery. Whether or not the patient received nifedipine was the second most powerful variable, with the use of nifedipine reducing by half the relative risk of failing medical therapy. These were followed by cigarette smoking and presence of global ST segment changes during ischemia. After 18 months the nifedipine group had fewer patients failing medical therapy (p = .02), with fewer patients undergoing coronary bypass surgery (p less than .01). However, nifedipine did not appear to have a preventive effect against myocardial infarction or death. Kaplan-Meier actuarial curves confirmed that medical therapy was significantly less successful in the presence of increasing numbers of significantly stenotic vessels (p = .03). However, nifedipine provided a significant beneficial effect in patients with two or more stenotic vessels (p less than .01) and in whom 50% or more of the myocardium was supplied by vessels with 70% or greater stenosis (p = .01). Thus, although patients with advanced obstructive coronary disease have the greatest likelihood of unfavorable outcomes, the addition of nifedipine is of significant benefit.(ABSTRACT TRUNCATED AT 400 WORDS)

Evidence of frank-starling effect in man during severe semisupine exercise.

Studies in man produce conflicting evidence of the role of the Frank-Starling mechanism in increasing cardiac output during exercise, though animal studies indicate that it may help to improve cardiac performance during severe exertion. Twelve healthy volunteers (mean age 35.8 i 2.8 years) performed graded exercise to exhaustion on a bicycle ergometer in the semisupine position for 8.9 i 0.9 minutes (maximum work load 900 kg-m/min). Echocardiographic recordings of left ventricular dimensions were obtained continuously and end-expiratory tracings digitized. Heart rate increased from 64 ± 3 to 152 ± 4 beats/min. At peak exercise, end-diastolic diameter increased from 4.52 ± 0.20 to 5.24 ± 0.17 cm sec-1 at peak exercise (p>0.0005). Maximum rates of change in diameter in systole and diastole, and normalized maximum diastolic rate of change all increased progressively and significantly throughout the exercise period. These results suggest that severe semisupine exertion causes an increase in left ventricular end-diastolic diameter, stroke dimension and percent change in diameter, but no change in end-systolic diameter measured at end-expiration. Increases in indices of left ventricular fiber shortening and rates of lengthening appear earlier in exercise than does an increase in end-diastolic fiber length, suggesting that during lower levels of exertion cardiac output rises primarily by increases in heart rate. The Frank-Starling effect appears, under the conditions of this study, to be reserved for augmenting cardiac performance during severe semisupine exertion.

Effect of nitroprusside on hydraulic vascular loads on the right and left ventricle of patients with heart failure.

We studied the effect of nitroprusside on the hydraulic vascular load of the right and left ventricle in seven patients with severe left ventricular failure. At doses of 0.25–0.75,μg/kg/min, stroke volume increased progressively from 40.1 to 48.6 ml and left ventricular end-diastolic pressure decreased from 24.5 to 11.2 mm Hg. Accompanying this improvement in left ventricular performance were doserelated decreases in mean ventricular pressures, pulmonic and systemic resistances and the lower-frequency components of input impedance moduli. Characteristic impedance and both total and oscillatory external power were decreased in the pulmonic, but not the aortic, vasculature. In this class of patients, right ventricular unloading is a striking and direct effect of nitroprusside and may account, in part, for imnproved left ventricular performance through ventricular interdependence.