Comparison of 2D vena contracta area with 3D planimetric mitral valve area in rheumatoid mitral valve disease

Rheumatoid valve disease is a general health problem of developing countries, and it mainly affects after the age of 40. Assessment of the correct mitral valve area (MVA) is important for the treatment of rheumatoid valve disease. However, there are contradictions between the three-dimensional (3D) and two-dimensional (2D) methods. A measurement with 3D echocardiography is a more accurate method to measure the MVA. However, in centers without 3D echocardiography, there are some difficulties in the accurate measurement of the MVA. The aim of this study was to assess the value of 2D transesophageal echocardiography (TEE) mitral valve vena contracta area (VCA) in predicting the severity of rheumatoid mitral stenosis (RMS) by comparing 3D planimetry. A total of 24 patients (10 females and 14 males) who were diagnosed with mild/moderate/severe RMS with using pressure half time, mean transmitral gradient, and planimetry methods were included in this study. 3D images were acquired using the 3D zoom and full volume. 2D TEE VCA was measured at an angle of 140° and 60°, which was perpendicular to the former, with color Doppler and the VCA was measured with an ellipsoid area using mathematical formula. There was statistically significant relationship between the measurements of 2D VCA and 3D zoom mode MVA planimetry and MVA full measurements (MVA full volume) (p < 0.01). Calculation of the valvular area after measuring the mitral valve VCA with 2D TEE is a reliable method that is usable in centers without 3D echocardiography

Is left ventricular diastolic dysfunction independent from presence of hypertension in metabolic syndrome? An echocardiographic study

WOS: 000343527100008PubMed ID: 24525047Background: It has been shown that left ventricular diastolic dysfunction (LVDD) develops in patients with metabolic syndrome (MetS). However, there is not sufficient evidence in the literature to determine whether this condition is due to increase in blood pressure, which is frequently encountered in MetS. The purpose of this study was to test the hypothesis whether LVDD in MetS is independent from the presence of hypertension. Methods: A total of 60 patients diagnosed with MetS and 30 healthy people, who were age- and gender-matched with the patient group, were included in the study as the control group. In the study group, 30 of the patients were normotensive whereas the other 30 had hypertension. Conventional echocardiographic examinations and tissue Doppler imaging were performed besides measurements of demographic and biochemical parameters. Results: In the hypertensive MetS group, early diastolic filling flow (E), early diastolic mitral annular velocity (E'), and E/A ratio were significantly lower compared to the control group. Late diastolic filling flow (A), deceleration time (DT), late diastolic mitral annular velocity (A'), and E/E' ratio were higher in the hypertensive MetS group than the control group. In the normotensive MetS group, E, E', and E/A ratio were also lower compared to the control group whereas DT, A', and E/E' ratio were higher. Conclusion: These findings support the idea that LVDD may develop in patients with MetS even in the absence of hypertension. In addition, co-existence of hypertension with MetS contributes to further worsening of diastolic functions. (C) 2014 Japanese College of Cardiology. Published by Elsevier Ltd. All rights reserved