Your search keyword '"MININNI N"' showing total 4 results

1. Analysis by pulsed Doppler tissue imaging of ventricular interaction in long-distance competitive swimmers.

Author

Caso P, Galderisi M, D'Andrea A, Di Maggio D, De Simone L, Martiniello AR, Mininni N, Calabrò R, and Sutherland GR

Subjects

Adult, Diastole physiology, Humans, Reference Values, Systole physiology, Ventricular Function, Left physiology, Ventricular Function, Right physiology, Echocardiography, Doppler, Pulsed methods, Physical Endurance physiology, Swimming physiology, Ventricular Function physiology

Published

2002

2. Assessment of myocardial response to physical exercise in endurance competitive athletes by pulsed doppler tissue imaging.

Author

D'Andrea A, Caso P, Galderisi M, Di Maggio D, Cicala S, D'Andrea L, Mininni N, and Calabrò R

Subjects

Adolescent, Adult, Blood Flow Velocity, Echocardiography, Doppler, Heart Valves diagnostic imaging, Humans, Stroke Volume, Swimming, Exercise, Myocardial Contraction, Physical Fitness, Ultrasonography, Doppler, Pulsed, Ventricular Function, Left

Published

2001

3. Pulsed Doppler tissue imaging in endurance athletes: relation between left ventricular preload and myocardial regional diastolic function.

Author

Caso P, D'Andrea A, Galderisi M, Liccardo B, Severino S, De Simone L, Izzo A, D'Andrea L, and Mininni N

Subjects

Adult, Dilatation, Pathologic, Heart Ventricles pathology, Humans, Male, Diastole physiology, Echocardiography, Doppler, Pulsed, Heart Ventricles diagnostic imaging, Sports physiology, Ventricular Function, Left physiology

Abstract

The aim of this study was to assess the effects of endurance training on myocardial regional systolic and diastolic function by pulsed Doppler tissue imaging (DTI). Twenty male water polo players and 20 male control subjects underwent standard Doppler echocardiography and pulsed DTI, performed in apical views by placing a sample volume on left ventricular (LV) basal septal and inferior walls. Age, body surface area, and blood pressure were comparable between the 2 groups, with lower heart rate in athletes (p <0.001). They had significantly increased LV mass index (due to both higher wall thickness and end-diastolic diameter), greater endocardial fractional shortening, higher transmitral early/atrial (E/A) peak velocities ratio. In athletes, DTI analysis showed significantly prolonged myocardial deceleration time and greater myocardial E/A peak velocity ratio of septal and inferior walls, whereas myocardial early peak velocity was increased (p <0.01) only at the inferior wall. In the overall group, we found univariate relations of septal and inferior E/A peak velocity ratio and myocardial deceleration time with LV mass levels, and, in particular, with the sum of wall thickness. By separate multivariate analyses, however, these relations disappeared, being dependent on heart rate degree. Another association found between LV end-diastolic diameter and myocardial early diastolic wave peak velocity of the inferior wall (r = 0.68, p <0.0001) remained significant (standardized beta coefficient 0.60, p <0.00001), even after adjusting for heart rate, body surface area, age, and stroke volume (R(2) = 0.71, p <0.00001). In conclusion, DTI is a useful tool for detecting regional changes in myocardial function induced by training, because athletes present with an improvement in diastolic passive properties of myocardium. The higher early diastolic velocity of the inferior wall and its relation to increased preload may represent an indicator of aerobic training, allowing quantification of the degree of LV adaptation to endurance exercise.

Published

2000

4. Use of pulsed Doppler tissue imaging to assess regional left ventricular diastolic dysfunction in hypertrophic cardiomyopathy.

Author

Severino S, Caso P, Galderisi M, De Simone L, Petrocelli A, de Divitiis O, and Mininni N

Subjects

Adult, Cardiomyopathy, Hypertrophic diagnostic imaging, Case-Control Studies, Echocardiography, Female, Humans, Male, Stroke Volume, Cardiomyopathy, Hypertrophic physiopathology, Ventricular Dysfunction, Left physiopathology

Abstract

In this study, regional diastolic patterns and their relations with transmitral Doppler inflow were investigated in hypertrophic cardiomyopathy (HC) by pulsed Doppler tissue imaging (DTI). Doppler echocardiography and DTI of basal septum and lateral wall (apical 4-chamber view) were performed in 20 patients (15 men and 5 women) with HC and in 10 healthy subjects (7 men and 3 women). Diabetes, hypertension, coronary artery and valvular disease, mitral regurgitation, New York Heart Association functional classes III to IV, sinus tachycardia, atrial fibrillation, and inadequate echocardiograms were exclusion criteria. Peak velocity and time-velocity integral of early and late waves and their ratios, and deceleration and isovolumic relaxation times were determined by standard Doppler and by DTI at the septal and lateral wall levels. The 2 groups were comparable for age, heart rate, blood pressure, and ejection fraction. Transmitral peak velocity and time-velocity integral E/A ratios were reduced (both p <0.05) and deceleration and isovolumic relaxation times prolonged (both p <0.00001) in HC. Septal DTI showed lower peak velocity and time-velocity integral e/a ratios (p <0.00001 and p <0.001, respectively) and lengthened regional deceleration (p <0.01) and isovolumic (p <0.001) relaxation times. DTI of the lateral wall showed a prolongation of deceleration and isovolumic relaxation times (both p <0.01). By dividing HC according to transmitral E/A, 8 patients with E/A <1 had lower DTI septal e/a ratio (p <0.01) and prolonged septal deceleration and isovolumic relaxation times (both p <0.01) but no changes in DTI pattern of lateral wall than 12 patients with E/A > 1. In conclusion, DTI is useful and complementary to standard Doppler imaging to characterize diastolic properties in HC, reflecting a typical pattern of intramyocardial impaired relaxation at the level of hypertrophied septum and also providing information about the degree of this regional impairment. The lateral wall presents minor changes in diastolic times, which indicate how diastolic asynchrony is not confined to the hypertrophied segment in HC.

Published

1998