Hugo Rodríguez‐Zanella scite author profile

Three-dimensional (3D) speckle-tracking echocardiography (3DSTE) is an advanced imaging technique designed for left ventricular (LV) myocardial deformation analysis based on 3D data sets. 3DSTE has the potential to overcome some of the intrinsic limitations of two-dimensional STE (2DSTE) in the assessment of complex LV myocardial mechanics, offering additional deformation parameters (such as area strain) and a comprehensive quantitation of LV geometry and function from a single 3D acquisition. Albeit being a relatively young technique still undergoing technological developments, several experimental studies and clinical investigations have already demonstrated the reliability and feasibility of 3DSTE, as well as several advantages of 3DSTE over 2DSTE. This technique has provided new insights into LV mechanics in several clinical fields, such as the objective assessment of global and regional LV function in ischemic and non-ischemic heart diseases, the evaluation of LV mechanical dyssynchrony, as well as the detection of subclinical cardiac dysfunction in cardiovascular conditions at risk of progression to overt heart failure. However, 3DSTE generally requires patient's breathhold and regular rhythm for enabling an ECG-gated multi-beat 3D acquisition. In addition, the measurements, normal limits and cut-off values pertaining to 3D strain parameters are currently vendor-specific and highly dependent on the 3D ultrasound equipment used. Technological advances with improvement in spatial and temporal resolution and a standardized methodology for obtaining vendor-independent 3D strain measurements are expected in the future for a widespread application of 3DSTE in both clinical and research arenas. The purpose of this review is to summarize currently available data on 3DSTE methodology (feasibility, accuracy and reproducibility), strengths and weaknesses with respect to 2DSTE, as well as the main clinical applications and future research priorities of this emerging technology.

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Morphological Assessment of the Tricuspid Apparatus and Grading Regurgitation Severity in Patients With Functional Tricuspid Regurgitation

Badano

Hahn

Rodríguez‐Zanella

et al. 2019

JACC: Cardiovascular Imaging

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Functional, Anatomical, and Prognostic Correlates of Coronary Flow Velocity Reserve During Stress Echocardiography

Ciampi

Zagatina²,

Cortigiani³

et al. 2019

Journal of the American College of Cardiology

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A randomized controlled trial of lung ultrasound-guided therapy in heart failure (CLUSTER-HF study)

Araiza-Garaygordobil

Gopar‐Nieto

Martínez-Amezcua

et al. 2020

American Heart Journal

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Lung Ultrasound and Pulmonary Congestion During Stress Echocardiography

Scali

Zagatina²,

Ciampi

et al. 2020

JACC: Cardiovascular Imaging

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The purpose of this study was to assess the functional and prognostic correlates of B-lines during stress echocardiography (SE). BACKGROUND B-profile detected by lung ultrasound (LUS) is a sign of pulmonary congestion during SE. METHODS The authors prospectively performed transthoracic echocardiography (TTE) and LUS in 2,145 patients referred for exercise (n ¼ 1,012), vasodilator (n ¼ 1,054), or dobutamine (n ¼ 79) SE in 11 certified centers. B-lines were evaluated in a 4-site simplified scan (each site scored from 0: A-lines to 10: white lung for coalescing B-lines). During stress the following were also analyzed: stress-induced new regional wall motion abnormalities in 2 contiguous segments; reduced left ventricular contractile reserve (peak/rest based on force, #2.0 for exercise and dobutamine, #1.1 for vasodilators); and abnormal coronary flow velocity reserve #2.0, assessed by pulsed-wave Doppler sampling in left anterior descending coronary artery and abnormal heart rate reserve (peak/rest heart rate) #1.80 for exercise and dobutamine (#1.22 for vasodilators). All patients completed follow-up. RESULTS According to B-lines at peak stress patients were divided into 4 different groups: group I, absence of stress B-lines (score: 0 to 1; n ¼ 1,389; 64.7%); group II, mild B-lines (score: 2 to 4; n ¼ 428; 20%); group III, moderate B-lines (score: 5 to 9; n ¼ 209; 9.7%) and group IV, severe B-lines (score: $10; n ¼ 119; 5.4%). During median follow-up of 15.2 months (interquartile range: 12 to 20 months) there were 38 deaths and 28 nonfatal myocardial infarctions in 64 patients. At multivariable analysis, severe stress B-lines (hazard ratio [

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