Ming K. Heng

Cross-sectional echocardiography III. Analysis of mathematic models for quantifying volume of symmetric and asymmetric left ventricles

Cross-sectional echocardiography was utilized for quantification of volume in 19 formalin-fixed left ventricles in the presence or absence of ventricular symmetry, defined by the ratio of septal-lateral to anterior-posterior diameter. In 10 symmetric ventricles this ratio was 1.23 +/- 0.06 (mean +/- SEM), whereas in nine asymmetric ventricles the ratio was 1.80 +/- 0.07. Area, diameter, and length measurements were obtained from short- and long-axis cross-sectional images of the left ventricle and volume was calculated by five mathematical models previously described. To evaluate the reliability of each model, echocardiographic left ventricular volume was compared by linear regression and percent error analyses to directly measured fluid volume. In symmetric ventricles, excellent correlations (r = 0.996 to 0.967) and reasonable mean percent errors (6% to 31%) were observed for all models. In asymmetric ventricles, models utilizing short-axis area or two short-axis diameters retained high correlation coefficients (r = 0.985 to 0.956) and similar mean percent errors, but standard formulas previously used with M-mode echo and angiography showed lower correlations (r = 0.886 to 0.873) and higher mean percent errors (52% to 54%). Thus, in the presence of ventricular asymmetry, analysis of short-axis areas or diameters with cross-sectional echocardiography is well suited for quantification of left ventricular volumes.

Changes in left ventricular wall stress during isometric and isotonic exercise in healthy men

Changes in left ventricular (LV) meridional and circumferential end-systolic wall stress during isometric and isotonic exercises were determined noninvasively in 12 healthy subjects using echocardiography and cuff blood pressure measurements. Isometric exercise was performed at 20 and 40% of maximal voluntary contraction using a handgrip dynamometer, and isotonic exercise was done on a cycle ergometer at 150 kpm/min increments every 3 minutes to a maximum of 600 kpm/min. Although the increase in systolic blood pressure was similar in both forms of exercise, LV systolic stress in the circumferential and meridional planes increased markedly during isometric exercise but decreased slightly during higher intensity isotonic exercise. Isometric exercise also produced a significant decrease in fractional shortening, whereas isotonic exercise significantly increased fractional shortening. Wall stress and fractional shortening were linearly and inversely related, but isometric and isotonic exercise produced divergent and significantly different linear regressions. In normal subjects isometric exercise produces a significant increase in LV afterload that leads to a decrease in LV global function. In contrast, isotonic exercise causes an increase in LV global function, most likely from an unchanged or slight decrease in afterload associated with increased LV contractility from greater catecholamine release.

Significance of T wave normalization in the electrocardiogram during exercise stress test

Although normalization of previously inverted T waves in the ECG is not uncommon during exercise treadmill testing, the clinical significance of this finding is still unclear. This was investigated in 45 patients during thallium-201 exercise testing. Patients with secondary T wave abnormalities on the resting ECG and ischemic exercise ST segment depression were excluded. On the thallium-201 scans, the left ventricle was divided into anterior-septal and inferior-posterior segments; these were considered equivalent to T wave changes in leads V1 and V5, and aVF, respectively. A positive thallium-201 scan was found in 43 of 45 (95%) patients and in 49 of 52 (94%) cardiac segments that showed T wave normalization. When thallium scans and T wave changes were matched to sites of involvement, 76% of T wave normalization in lead aV, was associated with positive thallium scans in the inferior-posterior segments, and 77% of T wave normalization in V1 and V5 was associated with positive thallium scans in the anterior-septal segments. These site correlations were similar for reversible and fixed thallium defects, and for patients not on digoxin therapy. Similar correlations were noted for the sites of T wave changes and coronary artery lesions in 12 patients who had angiography. In patients with a high prevalence for coronary artery disease, exercise T wave normalization is highly specific for the presence of the disease. In addition, it represents predominantly either previous injury or exercise-induced ischemic changes over the site of ECG involvement, rather than reciprocal changes of the opposite ventricular wall.

Hemodynamic effects of high-dose sustained-action oral isosorbide dinitrate in stable angina

Hemodynamic effects of sustained-action oral isosorbide dinitrate (40 or 80 mg) were studied in 10 patients with stable angina for a period of 16 hours. Control hemodynamic parameters monitored for eight hours prior to the administration of isosorbide dinitrate showed no significant change. However significant reduction in mean arterial pressure, cardiac index, pulmonary artery wedge pressure, mean pulmonary artery pressure, double product (systolic pressure multiplied by heart rate), stroke volume index, and stroke work index occurred in the first two hours and persisted for 12 hours following the administration of isosorbide dinitrate. Heart rate did not change significantly for 12 hours. It can be concluded that the hemodynamic effects of sustained-action oral isosorbide dinitrate occur in the first two hours and last up to 12 hours. The predominant hemodynamic effect appears to be on the myocardial preload. The antianginal effect of the drug could be attributed to the reduction of myocardial oxygen demand reflected by a decrease in the double product and stroke work. The duration of the hemodynamic changes observed in this study indicates that high-dose oral isosorbide dinitrate could be administered conveniently two or three times daily.