Echocardiographie clinique
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Introduction à l'échocardiographie et à l'imagerie par ultrasons12 Chapters
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Introduction à la physique des ultrasons
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Le transducteur à ultrasons
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Aspects techniques de l'image échographique
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Échocardiographie bidimensionnelle (2D)
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Optimisation de l'image échographique
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Échocardiographie en mode M (mode mouvement)
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Effet Doppler et échocardiographie Doppler
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Doppler à ondes pulsées
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Doppler à ondes continues (CW Doppler)
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Doppler couleur
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Doppler tissulaire (imagerie de vélocité tissulaire)
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Artéfacts dans l'imagerie ultrasonore
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Introduction à la physique des ultrasons
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Principes et calculs hémodynamiques5 Chapters
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L'examen échocardiographique3 Chapters
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Fonction systolique et contractilité du ventricule gauche11 Chapters
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Fonction ventriculaire gauche
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Mécanique du myocarde : Structure et fonction des fibres myocardiques
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Relation pression-volume du ventricule gauche : Précharge, postcharge, volume d'éjection, contrainte de paroi & ; loi de Frank-Starling
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Assessing left ventricular systolic function
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Left ventricular mass and volume (size)
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Ejection fraction (EF): Physiology, Measurement & Clinical Evaluation
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Fractional shortening for estimation of ejection fraction
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Strain, strain rate and speckle tracking: Myocardial deformation
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Left Ventricular Segments for Echocardiography and Cardiac Imaging
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The Coronary Arteries
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Regional Myocardial Contractile Function: Wall Motion Abnormalities
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Fonction ventriculaire gauche
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Left ventricular diastolic function3 Chapters
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Cardiomyopathies6 Chapters
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Heart failure: Causes, types, diagnosis, treatments & management
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Echocardiography in cardiomyopathies: an overview
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Hypertrophic Cardiomyopathy (HCM) & Hypertrophic Obstructive Cardiomyopathy (HOCM)
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Dilated Cardiomyopathy (DCM): Definition, Types, Diagnostics & Treatment
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Arrhythmogenic Right Ventricular Cardiomyopathy / Dysplasia (ARVC, ARVD)
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Tachycardia induced cardiomyopathy
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Heart failure: Causes, types, diagnosis, treatments & management
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Valvular heart disease8 Chapters
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Miscellaneous conditions5 Chapters
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Pericardial disease2 Chapters
Left ventricular mass and volume (size)
Size and mass of the left ventricle
Left ventricular mass is a flawed proxy for ventricular systolic function and load. The mass is, however, an important parameter in the assessment of ventricular hypertrophy and cardiomyopathy. Numerous formulas have been developed to approximate ventricular mass. Most formulas are simple mathematical equations, included in all ultrasound systems, and assume that the geometry of the left ventricle is normal.
massLV = 1.05 (masstotal – masscavity)
LV = left ventricle; 1.05 = mycoardial mass constant.
Left ventricular hypertrophy (LVH)
A diagnosis of left ventricular hypertrophy is based on total left ventricular mass, which can be calculated by obtaining the measurements shown in Figure 1. The ultrasound system automatically calculates RWT (Relative Weight Thickness), provided that the patient’s weight, height and sex are entered. RWT is a measure of the type of hypertrophy.
Generally, hypertrophy is defined as wall thickness exceeding 12 mm. Thus, wall thickness >12 mm should raise suspicion of hypertrophy.