Fareed Khaja

Low-dose dobutamine in patients with acute myocardial infarction identifies viable but not contractile myocardium and predicts the magnitude of improvement in wall motion abnormalities in response to coronary revascularization

To assess the effects of coronary revascularization on viable but noncontractile myocardium, we examined 21 patients with a documented anterior acute myocardial infarction who had a significant improvement in wall motion abnormality evaluated by two-dimensional echocardiography in the infarct-related artery in response to low-dose dobutamine infusion. All patients had a significant residual stenosis in the infarct-related artery. In response to low-dose dobutamine, there was a marked improvement in contractility in the infarct-related area segments and this was reflected by a decrease in echocardiographic score index from 1.5 +/- 0.15 to 1.09 +/- 0.08 (p = 0.0001). Of these 21 patients, 13 underwent successful revascularization: 10 had percutaneous transluminal coronary angioplasty (PTCA) and three had coronary artery bypass grafts (CABG) (group I). Eight patients received medical therapy only (group II). At 40 +/- 15 days of follow-up, both groups had improvement in their segmental wall motion abnormalities. However, the improvement in group I was greater than that in group II, 1.1 +/- 0.13 and 1.35 +/- 0.1, respectively (p = 0.0002). We conclude that: (1) low-dose dobutamine infusion may identify viable but noncontractile myocardium in patients with acute myocardial infarction and (2) in these patients revascularization causes a greater improvement in left ventricular function over time when compared with a nonrevascularized group.

Left ventricular shape as a determinant of functional mitral regurgitation in patients with severe heart failure secondary to either coronary artery disease or idiopathic dilated cardiomyopathy

The relation between left ventricular (LV) shape and functional mitral regurgitation (MR) was evaluated in 39 patients with congestive heart failure. Heart failure was due to coronary artery disease in 23 patients (group I) and to idiopathic dilated cardiomyopathy in 16 (group II). LV shape was quantitated based on the ratio of LV major-to-minor axis and LV sphericity index calculated at end-systole and end-diastole. In group I, 9 patients had angiographic evidence of MR and 14 did not. In group II, 10 patients had MR and 6 did not. Within each group, there were no differences between patients with and without MR with regard to LV chamber volume and regional segmental wall motion abnormalities. In both groups, however, a significant difference was observed between patients with and without MR with respect to end-systolic and end-diastolic LV shape indexes. In group I, the end-systolic major-to-minor axis ratio was lower in patients with (1.42 +/- 0.04) than without (1.72 +/- 0.05) MR (p less than 0.001). Similar differences were observed in group II (1.41 +/- 0.06 vs 1.69 +/- 0.04) (p less than 0.01). In group I, the end-systolic sphericity index was also greater in patients with (0.32 +/- 0.02) than without (0.25 +/- 0.01) MR (p less than 0.02). Similar differences were observed in group II (0.37 +/- 0.03 vs 0.26 +/- 0.01) (p less than 0.02). These data indicate that in patients with severe heart failure, functional MR is present in those who manifest a more spherical LV cavity.

Noninvasive evaluation of left ventricular performance based on peak aortic blood acceleration measured with a continuous-wave Doppler velocity meter.

Peak aortic blood acceleration is recognized to be a sensitive index of global left ventricular performance. In the present study peak acceleration was assessed noninvasively in patients with a continuous-wave Doppler velocity meter. Peak aortic blood velocity and peak blood acceleration were measured by placing the ultrasonic transducer at the suprasternal notch. Measurements were obtained in 36 patients undergoing diagnostic cardiac catheterization. Peak velocity and acceleration were measured at rest just before left ventriculography. In patients with ejection fractions greater than 60%, peak acceleration was 19 +/- 5 m/sec/sec. In patients with ejection fractions of 41% to 60%, peak acceleration was lower, at 12 +/- 2 m/sec/sec (p less than .001). In patients with ejection fractions of 40% or less, peak acceleration (8 +/- 2 m/sec/sec) was markedly lower than in patients with ejection fractions greater than 60% (p less than .001). Peak acceleration showed a good linear correlation with ejection fraction (r = .90), and a better power fit (r = .93). These results indicate that peak acceleration, measured noninvasively with a continuous-wave Doppler velocity meter, is a useful indicator of global left ventricular performance.

Early revascularization improves survival in cardiogenic shock complicating acute myocardial infarction

The effects of coronary revascularization by percutaneous transluminal coronary angioplasty or coronary bypass grafting, or both, on survival were evaluated in 81 patients with cardiogenic shock complicating acute myocardial infarction. Thirty-two patients had successful revascularization and 49 patients had unsuccessful or no revascularization. Revascularization was achieved by coronary angioplasty in 22 patients, coronary bypass surgery in 2 and angioplasty followed by bypass surgery in 8. No significant differences were noted between the two groups with regard to baseline clinical or hemodynamic variables. Intraaortic balloon counterpulsation was employed in 27 (84%) of the 32 patients in the group with revascularization and in 19 (39%) of the 49 patients without revascularization (p = 0.0006). The in-hospital survival was significantly better in the patients with--18 (56%) of 32--than in the patients without revascularization--4 (8%) of 49 (p less than 0.0001). At a mean follow-up period of 21 +/- 15 months, this survival difference persisted--16 (50%) of 32 patients with revascularization survived versus 1 (2%) of 49 patients without revascularization (p less than 0.0001). The mean time from the onset of shock to revascularization differed significantly between survivors (12.4 +/- 15 h) and nonsurvivors (58.5 +/- 93 h) in the group with revascularization (p = 0.0004). In the revascularization group, the in-hospital survival rate was 77% (17 of 22) when revascularization was performed within 24 h but only 10% (1 of 10) when it was performed after 24 h (p = 0.0006).(ABSTRACT TRUNCATED AT 250 WORDS)

Blood velocity in the right coronary artery: Relation to the distribution of atherosclerotic lesions

Vascular endothelial injury by high shear stresses and adverse effects of low shear rates on mass transfer across the arterial wall have been suggested as factors in atherogenesis. This study describes differences in blood velocity, and therefore differences of shear rate, across the lumen of the right coronary artery (RCA) of man. Selective coronary arteriograms of 30 patients without obstructive RCA disease were reviewed. Velocity was assessed qualitatively based on the rate of clearance of contrast material. There was a rapid clearing of contrast material along the outer wall of the RCA as it curved around the border of the heart. A much slower clearing occurred along the inner wall, bordering the myocardium, which persisted 2 to 6 cardiac cycles after the outer wall had cleared. This suggests that velocity, and therefore shear rate, is much lower along the inner wall of the RCA. To determine the relation of the distribution of atherosclerotic plaques in the RCA to local blood velocity, the RCA in 17 randomly selected human subjects who died of noncardiac disease were studied histologically. There was an uneven distribution of atherosclerotic plaques in the RCA with greater involvement of the inner wall. These observations demonstrate an association between the lower shear rate along the inner wall of the RCA and the site of higher concentration of atherosclerosis.

Diagnostic value of visualization of the right ventricle using thallium-201 myocardial imaging.

The diagnostic significance of visualizing the right ventricle on thallium-201 myocardial perfusion scans (T-scan) at rest was studied in 53 patients. In 33 patients the right ventricle was visualized clearly on the T-scan (group A). Hemodynamic evidence of right ventricular hypertension with systolic pressure > 30mm Hg was present in 28 of 33 (85%) of these patients. Right ventricular volume overload with left-to-right shunt > 2: 1 was present in three patients. Other tests were diagnostic for right ventricular enlargement and or pulmonary hypertension as follows: chest x-ray (58%), echocardiogram (36%) and electrocardiogram (15%). In an unselected group of 20 patients (group B) where resting T-scan did not show visualization of the right ventricle, the right ventricular systolic pressure was < 30 mm Hg in all. The other noninvasive tests did not reveal presence of right ventricular hypertrophy or enlargement. T-scan appears to be a useful and sensitive test in detecting right ventricular pressure or volume overload compared with other noninvasive tests. This may be useful in detection of patients with right ventricular hypertrophy or enlargement secondary to pulmonary hypertension or other causes.

Doppler and echocardiographic features of normal and dysfunctioning bioprosthetic valves

Echocardiographic and Doppler studies were performed on 183 clinically normal and 58 severely dysfunctioning bioprosthetic mitral, aortic and tricuspid valves. The valve dysfunction resulted from spontaneous cusp degeneration in 49 instances and from paravalvular regurgitation in 9. The pulsed Doppler study demonstrated regurgitant flow in 36 (92%) of 39 regurgitant valves and 8 (90%) of 9 paravalvular regurgitant valves. Diagnostic echocardiographic features were present in only 51 and 10% of the patients, respectively. Although the Doppler regurgitant jet was peripheral in seven of the nine patients with paravalvular regurgitation, it was not possible to differentiate these patients from those who had valve degeneration and cusp tear at the periphery of the valve ring. Eight patients presented with a musical holosystolic murmur of mitral insufficiency. In all eight there was a characteristic honking intonation on the audio signal and a striated shuddering appearance on the video Doppler signal. Ten stenotic mitral bioprosthetic valves (less than or equal to 1.1 cm2 valve orifice) were identified by Doppler study. Diagnostic echocardiographic features were present in only two of these patients. The Doppler-derived valve orifice dimension correlated well (r = 0.83) with cardiac catheterization values. Fourteen asymptomatic or minimally symptomatic patients had echocardiographically thickened mitral cusps (greater than or equal to 3 mm). These patients had a significantly (p less than 0.0001) smaller valve area as compared with normal control valves, and during 4 to 24 months of follow-up, five of these patients developed severe valve regurgitation or stenosis. Doppler ultrasound is more sensitive than echocardiography in diagnosing bioprosthetic valve stenosis and regurgitation.(ABSTRACT TRUNCATED AT 250 WORDS)

Cardiac event rate after non-Q-wave acute myocardial infarction and the significance of its anterior location

To correlate cardiac event rate with infarct location on the electrocardiogram in patients recovering from a non-Q-wave acute myocardial infarction (AMI), 135 consecutive patients with enzymatically proven non-Q-wave AMI were followed prospectively for a median of 9.9 months. Of these, 65 patients were classified as having had an anterior non-Q-wave AMI, defined as new ST- or T-wave changes, or both, in leads V1 through V4 (group 1). The remaining 70 patients were classified as having had inferior or lateral non-Q-wave AMI, or both, defined as ST- or T-wave changes in 2 consecutive leads (II, II aVF; II and aVL or V5 and V6) (group 2). At baseline group I was older and had a higher incidence of previous AMI than group 2. After adjusting for baseline variables, the patients in group I had a 29% reinfarction and 32% mortality rate, which was significantly higher (p less than 0.002 for both) when compared to group 2, which had a reinfarction and mortality rate of 8 and 9%, respectively. Patients with anterior non-Q-wave AMI are at very high risk for developing a major cardiac event very soon after the index AMI. This high risk is probably related to a larger area of residual ischemic but viable myocardium in the infarct-related artery when compared to inferolateral non-Q-wave AMI.

Exploration of the cause of the low intensity aortic component of the second sound in nonhypotensive patients with poor ventricular performance.

SUMMARYThis investigation was undertaken to explore the cause of the diminished second sound (S2) that may occur in normotensive patients with poorly performing ventricles. Intraaortic sound and pressure were measured in 16 patients with angina; eight had normal ventricular performance (ejection fraction .60%) and eight had poor performance (ejection fraction < 50%). The amplitude of S, was lower in patients with poor ventricular performance as was negative dp/dt. Aortic pressure was com- parable in both groups. The ampitude of S2 was linearly related to the rate of change of the pressure gradient that developed across the aortic valve during diastole (r = 0.82). The latter also correlated with negative dp/dt (r = 0.82). These observations indicate that in patients with poor ventricular performance, isovolumic relaxation may be compromised. This would cause a reduction of the rate of development of the diastolic pressure gradient, which would result in a diminished S2.

Hemodynamic and anatomic determinants of relative differences in amplitude of the aortic and pulmonary components of the second heart sound

Abstract Intraarterial sound and pressure in the region of normal semilunar valves and the physical characteristics of the normal semilunar valves were measured to determine the factors that cause a difference in amplitude of the aortic and pulmonary components of the second heart sound. During cardiac catheterization, intraarterial sound was measured near the aortic valve in 15 normotensive patients and near the pulmonary valve in 13 patients with normal pulmonary arterial pressure and 17 patients with pulmonary hypertension. Both the rate of change of the diastolic pressure gradient and the amplitude of the pulmonary component of the second heart sound were higher in patients with pulmonary hypertension than in those with normal pulmonary arterial pressure. In patients with pulmonary hypertension, the amplitude of the pulmonary component of the second sound was as great as that of the aortic component. However, even in patients with pulmonary hypertension, diastolic pressure and the rate of change of the pressure gradient across the valve were lower than on the left side of the heart. These findings suggest that anatomic as well as hemodynamic factors determine the relative amplitude of the pulmonary and aortic components of the second sound. Examination of valves dissected from 12 patients at autopsy revealed that the normal pulmonary valve had a larger surface area and was thinner and more distensible than the normal aortic valve. These observations indicate that both the pulmonary and aortic components of the second sound are related to the rate of change of the diastolic pressure gradient that develops across the valves. However, a comparable driving pressure across the pulmonary valve would cause the pulmonary component of the second sound to have a greater amplitude than the aortic component because of the larger surface area and greater distensibility of this valve. These physical characteristics of the pulmonary valve permit it to produce more compression and thus more sound-pressure than the somewhat smaller and less distensible aortic valve.