SUMMARY A new method for obtaining absolute left ventricular volume from gated blood pool studies was evaluated in a torso phantom and in 35 patients who also underwent single-plane contrast ventriculography.Gated 400 left anterior oblique and static anterior views were acquired. Left ventricular volume at end-diastole was given by the ratio of the attenuation-corrected end-diastolic count rate from the gated study to the count rate per milliliter from a blood sample. Attenuation correction was made by dividing the end-diastolic count rate by e ud, where u = the linear attenuation coefficient of water and d = the distance from the skin marker to the center of the left ventricle in the anterior view divided by sin 400 to yield the depth of left ventricle in the left anterior oblique view. In the phantom studies, the correlation between radionuclide and true volume was 0.99 (radionuclide = 1.03 true -3 ml); the standard error of the estimate was 8 ml. In the patient studies, the radionuclide end-diastolic volume was used to calibrate the left ventricular time-activity curve, yielding left ventricular volume throughout the cardiac cycle. The correlation between radionuclide and angiographic enddiastolic volume was 0.95 (radionuclide = 0.97 angiographic + 3 ml); the standard error of the estimate was 36 ml. The correlation between radionuclide and angiographic end-systolic volume was 0.95 (radionuclide -1.01 angiographic + I ml); the standard error of the estimate was 33 ml. This method permits direct determination of absolute left ventricular volume without assumptions about the shape of the ventricle or the necessity of using regression equations to convert volume "units" to true volume.MEASUREMENT of left ventricular volume throughout the cardiac cycle would be useful in the diagnosis and treatment of patients with heart disease. Contrast left ventriculography has generally been used to measure volume, and is the standard for evaluating newer approaches. As described by Sandler and Dodge,", 2 the angiographic method assumes that the left ventricle is either an ellipsoid or a prolate spheroid, which may not be accurate for hearts with regional dysfunction.3 Angiography is invasive, making serial studies difficult, and may itself produce hemodynamic changes that affect left ventricular performance.4"7 Radionuclide scintigrams have been analyzed in an analogous way using dimensions to obtain volumes,8"-and although the invasive aspects and hemodynamic problems of contrast angiography are avoided, the same problems with geometric assumptions remain.A nongeometric approach with radionuclide tracer dilution curves has been described, proach has yielded only an index of left ventricular volume rather than an absolute measurement in milliliters.We describe a new nongeometric method for obtaining absolute left ventricular volume from gated blood pool studies. Materials and Methods Theoretical ConsiderationsIf a homogeneous distribution of activity is assumed to exist throughout the blood after injection and mixing of a bl...
In the excised canine left ventricle, the end-systolic pressure-volume relationship (ESPVR) has been shown to be approximately linear over the working range of loading conditions when coronary arterial pressure (CAP) is maintained constant, independent of loading conditions. To investigate the ESPVR under the more intact physiological condition in which the CAP varies with loading on the left ventricle, we studied the effect of changes in CAP on the ESPVR in 10 excised cross-circulated canine ventricles which were contracting isovolumically. The ESPVR, determined from isovolumic contractions at four different volumes, was reasonably independent of CAP as long as CAP remained above a critical pressure (67.0 +/- 22.1 mm Hg). Below this pressure, the slope of ESPVR decreased although the volume axis intercept (V0) remained unaltered. These findings indicate that under physiological conditions, where there is a close coupling of CAP to systolic left ventricular pressure, the ESPVR should become nonlinear in the low preload or afterload regions. When CAP was varied with the left ventricular pressure in five ventricles, the ESPVR indeed became nonlinear in the low-load region. We conclude that the ESPVR in intact conditions is reasonably linear in the physiological load range, but it can be nonlinear in the low-load range.
To ascertain the immediate effects of coronary artery bypass grafting on regional myocardial function, intraoperative transesophageal two-dimensional echocardiograms were obtained in 20 patients using a 3.5 MHz phased array transducer at the tip of a flexible gastroscope. Cross-sectional images of the left ventricle were obtained at multiple levels before skin incision and were repeated serially before and immediately after cardiopulmonary bypass. Using a computer-aided contouring system, percent systolic wall thickening was determined for eight anatomic segments in each patient at similar loading conditions (four each at mitral and papillary muscle levels). Of the 152 segments analyzed, systolic wall thickening improved from a prerevascularization mean value (+/- SEM) of 42.7 +/- 2.9% to a postrevascularization mean value of 51.6 +/- 2.6% (p less than 0.001). Thickening improved most in those segments with the worst preoperative function (p less than 0.001). Chest wall echocardiograms obtained 8.4 +/- 2.3 days after operation showed no deterioration or further improvement in segmental motion compared with transesophageal echocardiograms obtained after revascularization. Thus: regional myocardial function frequently improves immediately after bypass grafting, with increases in regional thickening being most marked in those segments demonstrating the most severe preoperative dysfunction, and this improvement appears to be sustained; and in some patients, chronic subclinical ischemic dysfunction is present which can be improved by revascularization.
SUMMARY 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 ,ug/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. We sought to determine the mechanism and magnitude of right ventricular unloading and the dose-response relationship of right relative to left ventricular hydraulic unloading with nitroprusside in patients with severe left ventricular failure. A primary concern was whether this agent, in doses just sufficient to produce a measurable alteration in systemic resistance and left ventricular performance, had a primary effect on right ventricular load through a direct effect on pulmonary vascular resistance and impedance. Methods PatientsWe studied patients with severe, chronic left ventricular failure from various causes. Clinically overt left ventricular congestive heart failure was manifested by pulmonary vascular congestion on chest x-ray, ventricular gallop sounds and recent history of both dyspnea and shortness of breath at rest. Patients who were scheduled to undergo diagnostic cardiac catheterization were asked to participate in the study. Any patient with suspected valvular or congenital heart disease was excluded. From this population, 20 patients were entered into the study after they gave informed consent.
Septal displacement is postulated as an important mediator of ventricular interdependence. During acute right ventricular loading with the Mueller manoeuvre the septum flattens and shifts leftward. To investigate the mechanism of this septal deformation, we measured transseptal pressures in nine patients during Mueller manoeuvres with simultaneous right and left ventricular micromanometers, and left ventricular configuration with two-dimensional echocardiograms. Data were analysed throughout diastole and at end-systole during control and maximum Mueller manoeuvre (-40 to -80 mmHg airway pressure). Leftward septal displacement during the Mueller manoeuvre was evidenced by an increase in septal radius of curvature at end-diastole persisting through end-systole. The left ventricular free wall radius of curvature was unchanged. During the Mueller manoeuvre, the left ventricular cavity area decreased significantly in the cross-sectional view. All Mueller manoeuvres were associated with a decrease in left-to-right ventricular transseptal pressure gradient throughout diastole. There was no significant change in the gradient at end-systole; septal flattening persisted, however, despite a pronounced left to right pressure gradient. Thus, diastolic septal flattening during right ventricular loading is associated with a decreased transseptal pressure gradient but does not require right ventricular diastolic pressure to exceed left ventricular diastolic pressure. The persistence of flattening in systole suggests that once septal shift occurs during diastole, other forces during systole maintain the deformity despite a large intracavitary transseptal gradient.
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