Alternative methods to assess ventricular diastolic function in the fetus are proposed. Fetal myocardial hypertrophy in maternal diabetes was used as a model of decreased left ventricular compliance (LVC), and fetal respiratory movements as a model of increased LVC. Comparison of three groups of fetuses showed that, in 10 fetuses of diabetic mothers (FDM) with septal hypertrophy (SH), the mean excursion index of the septum primum (EISP) (ratio between the linear excursion of the flap valve and the left atrial diameter) was 0.36 ± 0.09, in 8 FDM without SH it was 0.51 ± 0.09 (P = 0.001), and in the 8 normal control fetuses (NCF) it was 0.49 ± 0.12 (P = 0.003). In another study, 28 fetuses in apnea had a mean EISP of 0.39 ± 0.05 which increased to 0.57 ± 0.07 during respiration (P < 0.001). These two studies showed that the mobility of the septum primum was reduced when LVC was decreased and was increased when LVC was enhanced. Mean pulmonary vein pulsatility was higher in 14 FDM (1.83 ± 1.21) than in 26 NCF (1.02 ± 0.31; P = 0.02). In the same fetuses, mean left atrial shortening was decreased (0.40 ± 0.11) in relation to NCF (0.51 ± 0.09; P = 0.011). These results suggest that FDM may have a higher preload than normal controls, probably as a result of increased myocardial mass and LV hypertrophy. Prenatal assessment of LV diastolic function by fetal echocardiography should include analysis of septum primum mobility, pulmonary vein pulsatility, and left atrial shortening.
Hypertensive response in treadmill testing is associated with the development of hypertension, but it is still unclear if it is better identified by systolic or diastolic response, and measured directly or corrected by working capacity. We investigated 75 patients with normal office blood pressure through a treadmill testing, ambulatory blood pressure (ABP) monitoring, and two-dimensional Doppler echocardiogram. Characteristics associated with systolic blood pressure (SBP) response corrected by the estimated metabolic equivalent (MET) were identified in multiple linear regression models. SBP response was associated more consistently with age, body mass index (BMI), systolic ABP and left ventricular posterior wall thickness (p < 0.001) than diastolic response in the bivariate analysis, especially when corrected by MET. Age, BMI and nightly SBP were independently associated with SBP response corrected by MET in the multivariate analysis. Individuals from the top tertile of SBP response corrected by MET (> or =11.3 mmHg/MET) were older and had higher BMI, ABP and left ventricular septal and posterior wall thickness than individuals classified in the lower tertiles. These differences were more pronounced than the differences observed between individuals with and without a peak exercise blood pressure higher than 210 mmHg. We concluded that individuals with a high blood pressure response in treadmill testing have higher BMI, left ventricular posterior wall thickness and SBP measured by ABP monitoring than individuals without such a response. These differences were stronger when the variation of blood pressure during exercise was corrected by the amount of work performed.
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