Fetal echocardiography has been used for the noninvasive evaluation of human fetal cardiac anatomy, function, and hemodynamics. The purpose of the present study was to use Doppler echocardiographic methods to measure diastolic flow velocity patterns across the tricuspid and mitral valves in human fetuses during gestation. Fifty normal fetuses, 35 fetuses with intrauterine growth retardation (IUGR), and 30 fetuses of diabetic mothers (DM) were studied. Peak flow velocities during early diastole (peak E wave) and peak flow velocities during atrial contraction (peak A wave) were measured, and the peak EtA ratio was calculated. The peak E/A ratio of the left ventricle in fetuses increased gradually with increasing gestational age (r=0.57, p<0.05), and the peak EtA ratio of the right ventricle in fetuses increased linearly with increasing gestational age (r=0.48, p<0.05). In early gestational age, the peak EtA ratios of both the left and right ventricle in fetuses with IUGR and of DM were not significantly different from those in the controls. However , in late gestational age, the peak EtA ratios of both the left and right ventricle in fetuses with IUGR and of DM were significantly smaller than those in the controls. This gradual decrease in the peak EtA ratio during gestation may represent the maturational or developmental alteration of diastolic cardiac properties in utero. Fetuses with IUGR and of DM may have abnormal diastolic cardiac function in later gestation.
Evaluation of pulmonary arterial pressure is essential for the diagnosis and management of patients with congenital heart disease; it is usually done by cardiac catheterization. An alternative, noninvasive method may be clinically more useful. The purpose of this study was to assess the usefulness of the noninvasive determination of systolic pressure of the pulmonary artery and right ventricle by contrast-enhanced Doppler echocardiography. We selected 30 pediatric patients (28 with trivial or nonsignificant tricuspid regurgitant Doppler signals and 2 with significant tricuspid regurgitant Doppler signals) aged 2 months to 21 years. The flow velocity of tricuspid regurgitation was measured with continuous-wave Doppler of the right ventricular inflow view or left parasternal or apical four-chamber view before and after injection of two types of contrast medium (hand-agitated 5% glucose or sonicated albumin). The systolic pressure of the pulmonary artery was assessed as the estimated right ventricular systolic pressure (albumin method) minus the peak pressure gradient across the pulmonary valve (nonenhanced Doppler method). After injection of hand-agitated 5% glucose and sonicated albumin, trivial tricuspid regurgitation signals were enhanced in 25 of 28 patients (89%). In two patients, spectral envelopes were well defined enough to obtain the peak systolic velocity of the tricuspid regurgitation jet without contrast medium injection. Peak velocity was not altered by injection of contrast medium in these patients. There was significant correlation between the estimation by contrast-enhanced Doppler using hand-agitated 5% glucose and the cardiac catheterization measurement of the transtricuspid pressure gradient (r = 0.88). The transtricuspid pressure gradients obtained by continuous-wave Doppler during sonicated albumin enhancement corresponded closely to those measured by cardiac catheterization (r = 0.95). Pulmonary arterial and right ventricular systolic pressures measured by Doppler using sonicated albumin and those obtained by cardiac catheterization were highly correlated (right ventricle, r = 0.96; pulmonary artery, r = 0.95). In conclusion, this technique may be a valuable noninvasive method for determining accurate right ventricular and pulmonary arterial systolic pressures.
Percutaneous balloon aortic valvuloplasty (BAV) was performed in 14 patients, including one critically ill infant with congenital valvular aortic stenosis (AS). BAV was effective in 13 patients (except the infant). The peak systolic pressure gradient between the left ventricle (LV) and the ascending aorta decreased from 76.6 t 21.6 to 29.5 -t 15.3 mmHg (P < 0.001). Follow-up cardiac catheterization was performed for eight patients between 1 and 3 years (1.6 k 1.1 years) after BAV. Restenosis was found in only one patient, and the efficacy of BAV continued significantly. Aortic regurgitation developed or increased in severity in 5 of 13 children immediately after BAV. Any other severe complication was not observed.Dilatation by BAV was not sufficient for the infant with critical AS, and acute myocardial infarction (AMI) in the lateral wall of the LV occurred during the BAV procedure. The infant died 3 days after the procedure due to AMI. It was concluded that the retrograde double balloon technique was superior to the retrograde single balloon technique. In two cases, the single balloon technique was ineffective because it was impossible to fix the balloon at the aortic annulus. However, the double balloon technique was effective in every patient.BAV is effective for AS in children, and an optional repeat trial may enable BAV to be the first choice for AS. Although BAV may be effective for neonates and infants with critical AS as an emergency treatment, much attention must be paid during the procedure.
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