Tissue Doppler imaging demonstrated that peak myocardial relaxation velocities during early diastole decreased significantly in the third trimester and postpartum, reducing Em/Am and E/Em ratios.
Observational (n=35)
How does left ventricular diastolic function, assessed by tissue Doppler imaging, change throughout normal pregnancy?
Tissue Doppler imaging demonstrates progressive changes in myocardial relaxation velocity throughout normal pregnancy, suggesting its potential utility for monitoring cardiac function in high-risk pregnancies.
OBJECTIVE: Tissue Doppler imaging (TDI) is an echocardiographic technique for assessing the diastolic function that is relatively independent of preload. Since loading conditions change significantly during pregnancy, a load-independent technique will give a more accurate assessment of diastolic function in pregnant women. The aim of this study was to evaluate maternal diastolic function using tissue Doppler imaging. METHODS: This was a prospective observational study on 35 healthy pregnant women. M-mode, transmitral inflow (peak transmitral flow velocities during early diastole (E wave) and atrial contraction (A wave)) and TDI studies (peak myocardial velocities during early diastole (Em wave), during atrial contraction (Am wave) and peak systole in ejection phase (Sm)) were performed in each trimester and postpartum. The differences in variables between trimesters were analyzed. RESULTS: The peak transmitral inflow velocity during early diastole (E wave) was significantly decreased during the third trimester and postpartum. The peak flow velocity during atrial contraction (A wave) was increased in the second trimester, but decreased again in the third trimester and postpartum period. As a result, the E/A ratio progressively reduced as pregnancy advanced. TDI showed that peak myocardial velocities during early diastole (Em) tended to increase during the second trimester, and then decreased significantly in the third trimester or postpartum period. The peak myocardial velocities during atrial contraction (Am) increased significantly with advancing gestational age. As a consequence, both Em/Am and E/Em ratios decreased significantly throughout pregnancy. CONCLUSIONS: This study demonstrates the changes in myocardial relaxation velocity throughout pregnancy. Because of its advantage of being relatively load-independent, TDI may be a useful non-invasive technique for monitoring maternal cardiac function in high-risk pregnancies to detect the early signs of cardiac failure and to prevent further deterioration with prompt interventions.
Fok et al. (Tue,) conducted a observational in Normal pregnancy (n=35). Tissue Doppler imaging (TDI) vs. Conventional echocardiography (transmitral inflow) was evaluated on Changes in maternal diastolic function variables (E wave, A wave, Em, Am, E/A, Em/Am, E/Em) across trimesters and postpartum. Tissue Doppler imaging demonstrated that peak myocardial relaxation velocities during early diastole decreased significantly in the third trimester and postpartum, reducing Em/Am and E/Em ratios.