Your search keyword '"Muraru Denisa"' showing total 46 results

1. Organic Tricuspid Regurgitation

Author

Muraru, Denisa, Addetia, Karima, Jarjour, Fabiana, Lang, Roberto M., Badano, Luigi P., Badano, Luigi P., editor, Lang, Roberto M., editor, and Muraru, Denisa, editor

Published

2019

2. How to Implement Three-Dimensional Echocardiography in the Routine of the Echocardiography Laboratory

Author

Muraru, Denisa, Badano, Luigi P., Badano, Luigi P., editor, Lang, Roberto M., editor, and Muraru, Denisa, editor

Published

2019

3. Physics and Technical Principles of Three-Dimensional Echocardiography

Author

Muraru, Denisa, Badano, Luigi P., Badano, Luigi P., editor, Lang, Roberto M., editor, and Muraru, Denisa, editor

Published

2019

4. Assessment of the Right Ventricle

Author

Muraru, Denisa, de Alcantara, Monica Luiza, Surkova, Elena, Elnagar, Basma, Badano, Luigi P., editor, Lang, Roberto M., editor, and Muraru, Denisa, editor

Published

2019

5. Multimodality Imaging Assessment of Aortic Regurgitation

Author

Muraru, Denisa, Badano, Luigi P., Liu, Shizhen, Fattouch, Khalil, editor, Lancellotti, Patrizio, editor, Vannan, Mani A., editor, and Speziale, Giuseppe, editor

Published

2018

6. Tricuspid Annulus Measurements: Dynamic Changes in Health and Disease

Author

Muraru, Denisa, Badano, Luigi P., Soliman, Osama I., editor, and ten Cate, Folkert J., editor

Published

2018

7. The Imaging of Right Ventricular Dysfunction in Heart Failure

Author

Surkova, Elena, Muraru, Denisa, Badano, Luigi P., Dorobanţu, Maria, editor, Ruschitzka, Frank, editor, and Metra, Marco, editor

Published

2016

8. Current Clinical Applications of Three-Dimensional Echocardiography: When the Technique Makes the Difference

Author

Surkova, Elena, Muraru, Denisa, Aruta, Patrizia, Romeo, Gabriella, Bidviene, Jurate, Cherata, Diana, and Badano, Luigi P.

Published

2016

9. Normal mitral annulus dynamics and its relationships with left ventricular and left atrial function

Author

Mihaila, Sorina, Muraru, Denisa, Miglioranza, Marcelo Haertel, Piasentini, Eleonora, Peluso, Diletta, Cucchini, Umberto, Iliceto, Sabino, Vinereanu, Dragos, and Badano, Luigi P.

Published

2015

10. Impact of correcting the 2D PISA method on the quantification of functional tricuspid regurgitation severity.

Author

Tomaselli, Michele, Badano, Luigi P, Menè, Roberto, Gavazzoni, Mara, Heilbron, Francesca, Radu, Noela, Caravita, Sergio, Baratto, Claudia, Oliverio, Giorgio, Florescu, Diana R., Parati, Gianfranco, and Muraru, Denisa

Subjects

HEART valve diseases, ECHOCARDIOGRAPHY, MITRAL valve insufficiency, RESEARCH evaluation, RETROSPECTIVE studies, MAGNETIC resonance imaging, SEVERITY of illness index, DOPPLER echocardiography, COMPARATIVE studies, DESCRIPTIVE statistics

Abstract

Aims In functional tricuspid regurgitation (FTR) patients, tricuspid leaflet tethering and relatively low jet velocity could result in proximal flow geometry distortions that lead to underestimation of TR. Application of correction factors on two-dimensional (2D) proximal isovelocity surface area (PISA) equation may increase its reliability. This study sought to evaluate the impact of the corrected 2D PISA method in quantifying FTR severity. Methods and results In 102 patients with FTR, we compared both conventional and corrected 2D PISA measurements of effective regurgitant orifice area [EROA vs. corrected (EROAc)] and regurgitant volume (RegVol vs. RegVolc) with those obtained by volumetric method (VM) using three-dimensional echocardiography (3DE), as reference. Both EROAc and RegVolc were larger than EROA (0.29 ± 0.26 vs. 0.22 ± 0.21 cm2; P < 0.001) and RegVol (24.5 ± 20 vs. 18.5 ± 14.25 mL; P < 0.001), respectively. Compared with VM, both EROAc and RegVolc resulted more accurate than EROA [bias = −0.04 cm2, limits of agreement (LOA) ± 0.02 cm2 vs. bias = −0.15 cm2, LOA ± 0.31 cm2] and RegVol (bias = −3.29 mL, LOA ± 2.19 mL vs. bias = −10.9 mL, LOA ± 13.5 mL). Using EROAc and RegVolc, 37% of patients were reclassified in higher grades of FTR severity. Corrected 2D PISA method led to a higher concordance of TR severity grade with the VM method (ĸ = 0.84 vs. ĸ = 0.33 for uncorrected PISA, P < 0.001). Conclusion Compared with VM by 3DE, the conventional PISA underestimated FTR severity in about 50% of patients. Correction for TV leaflets tethering angle and lower velocity of FTR jet improved 2D PISA accuracy and reclassified more than one-third of the patients. [ABSTRACT FROM AUTHOR]

Published

2022

11. Sources of variation and bias in assessing left ventricular volumes and dyssynchrony using three-dimensional echocardiography

Author

Muraru, Denisa, Badano, Luigi P., Ermacora, Davide, Piccoli, Gianluca, and Iliceto, Sabino

Published

2012

12. Evaluation of Tricuspid Valve Morphology and Function by Transthoracic Three-Dimensional Echocardiography

Author

Muraru, Denisa, Badano, Luigi P., Sarais, Cristiano, Soldà, Elena, and Iliceto, Sabino

Published

2011

13. Right heart chambers geometry and function in patients with the atrial and the ventricular phenotypes of functional tricuspid regurgitation.

Author

Florescu, Diana R, Muraru, Denisa, Florescu, Cristina, Volpato, Valentina, Caravita, Sergio, Perger, Elisa, Bălșeanu, Tudor A, Parati, Gianfranco, and Badano, Luigi P

Subjects

ECHOCARDIOGRAPHY, RIGHT heart ventricle, TRICUSPID valve diseases, TRICUSPID valve, ATRIAL fibrillation, CASE-control method, HEART atrium, PHENOTYPES, LONGITUDINAL method

Abstract

Aims Atrial functional tricuspid regurgitation (A-FTR) is a recently defined phenotype of functional tricuspid regurgitation (FTR) associated with persistent/permanent atrial fibrillation. Differently from the classical ventricular form of FTR (V-FTR), patients with A-FTR might present with severely dilated right atrium and tricuspid annulus (TA), and with preserved right ventricular (RV) size and systolic function. However, the geometry and function of the right ventricle, right atrium, and TA in patients with A-FTR and V-FTR remain to be systematically evaluated. Accordingly, we sought to: (i) study the geometry and function of the right ventricle, right atrium, and TA in A-FTR by two- and three-dimensional transthoracic echocardiography; and (ii) compare them with those found in V-FTR. Methods and results We prospectively analysed 113 (44 men, age 68 ± 18 years) FTR patients (A-FTR = 55 and V-FTR = 58) that were compared to two groups of age- and sex-matched controls to develop the respective Z-scores. Severity of FTR was similar in A-FTR and V-FTR patients. Z-scores of RV size were significantly larger, and those of RV function were significantly lower in V-FTR than in A-FTR (P < 0.001 for all). The right atrium was significantly enlarged in both A-FTR and V-FTR compared to controls (P < 0.001, Z-scores > 2), with similar right atrial (RA) maximum volume (RAVmax) between A-FTR and V-FTR (P = 0.2). Whereas, the RA minimum volumes (RAVmin) were significantly larger in A-FTR than in V-FTR (P = 0.001). Conclusion Despite similar degrees of FTR and RAVmax size, A-FTR patients show larger RAVmin and smaller TA areas than V-FTR patients. Conversely, V-FTR patients show dilated, more elliptic and dysfunctional right ventricle than A-FTR patients. [ABSTRACT FROM AUTHOR]

Published

2022

14. Atrial fibrillation is associated with large beat-to-beat variability in mitral and tricuspid annulus dimensions.

Author

Naser, Jwan A, Kucuk, Hilal Olgun, Ciobanu, Andrea O, Jouni, Hayan, Oguz, Didem, Thaden, Jeremy J, Pislaru, Cristina, Pellikka, Patricia A, Foley, Thomas A, Eleid, Mackram F, Muraru, Denisa, Nkomo, Vuyisile T, and Pislaru, Sorin V

Subjects

MITRAL valve diseases, MITRAL valve insufficiency, ECHOCARDIOGRAPHY, CONFIDENCE intervals, TRICUSPID valve diseases, ATRIAL fibrillation, TRICUSPID valve, HEART beat, DESCRIPTIVE statistics, ODDS ratio, MITRAL valve, DISEASE risk factors

Abstract

Aims Beat-to-beat variability in cycle length is well-known in atrial fibrillation (Afib); whether this also translates to variability in annulus size remains unknown. Defining annulus maximal size in Afib is critical for accurate selection of percutaneous devices given the frequent association with mitral and tricuspid valve diseases. Methods and results Images were obtained from 170 patients undergoing 3D echocardiography [100 (50 sinus rhythm (SR) and 50 Afib) for mitral annulus (MA) and 70 (35 SR and 35 Afib) for tricuspid annulus (TA)]. Images were analysed for differences in annular dynamics with a commercially available software. Number of cardiac cycles analysed was 567 in mitral valve and 346 in tricuspid valve. Median absolute difference in maximal MA area over four to six cycles was 1.8 cm2 (range 0.5–5.2 cm2) in Afib vs. 0.8 cm2 (range 0.1–2.9 cm2) in SR, P  < 0.001. Maximal MA area was observed within 30–70% of the R-R interval in 81% of cardiac cycles in SR and in 73% of cycles in Afib. Median absolute difference in maximal TA area over four to six cycles was 1.4 cm2 (range 0.5–3.6 cm2) in Afib vs. 0.7 cm2 (range 0.3–1.7 cm2) in SR, P  < 0.001. Maximal TA area was observed within 60–100% of the R-R interval in 81% of cardiac cycles in SR, but only in 49% of cycles in Afib. Conclusion MA and TA reach maximal size within a broad time interval centred around end-systole and end-diastole, respectively, with significant beat-to-beat variability. Afib leads to a larger beat-to-beat variability in both timing of occurrence and values of annulus size than in SR. [ABSTRACT FROM AUTHOR]

Published

2021

15. Textbook of three-dimensional echocardiography

Author

Badano Luigi, Lang Roberto M., Muraru Denisa, Badano, L, Lang Roberto, M, and Muraru, D

Subjects

mitral valve, left ventricle, history, MED/11 - MALATTIE DELL'APPARATO CARDIOVASCOLARE, tricuspid valve, right ventricle, Three-dimensional echocardiography, aortic valve, right atrium, physic, development, left atrium

Abstract

Tremendous improvements in ultrasound technology have led to development of one of the most impressive advancements in the use of ultrasound to assess cardiac morphology and function: three-dimensional echocardiography (3DE). During the last decade, 3DE has made a dramatic transition from a predominantly research tool used in few large academic medical centers to a technology available in most echocardiography laboratories, cardiac surgery operating rooms and catheterization and/or electrophysiology labs to address everyday clinical practice and guide interventional procedures. 3DE is now an established technique able to provide intuitive recognition of cardiac structures from any spatial point of view and complete information about absolute heart chamber volumes and function. In particular, 3DE has demonstrated its superiority over current echocardiographic modalities in a number of clinical applications. The Textbook of Real-Time Three Dimensional Echocardiography is intended to provide a comprehensive overview of the normal anatomy of the heart as seen by this new revolutionary ultrasound technique, and focusing on the clinical value of transthoracic 3DE and on the expanding role of transesophageal 3DE in guiding and monitoring surgical and interventional procedures. For echocardiographers who already use 3DE, the more advanced applications of 3DE are presented in detail. For those looking to learn 3DE, the Editors and their contributors have provided hundreds of images and videos in an that show the added clinical value of 3D imaging of cardiac structures. This textbook is therefore written not only for cardiologists specifically involved in the imaging of patients but also for general cardiologists, since it offers a wider clinical view of normal and pathological cardiac anatomy.

Published

2019

16. The Added Value of 3-Dimensional Echocardiography to Understand the Pathophysiology of Functional Tricuspid Regurgitation.

Author

Badano, Luigi P., Caravita, Sergio, Rella, Valeria, Guida, Valentina, Parati, Gianfranco, and Muraru, Denisa

Published

2021

17. Three-dimensional echocardiography assessment of the systolic variation of effective regurgitant orifice area in patients with functional tricuspid regurgitation: implications for quantification

Author

Aruta Patrizia, Muraru Denisa, Jenei Csaba, Haertel Miglioranza Marcelo, Cavalli Giacomo, Romeo Gabriella, Peluso Diletta, Cucchini Umberto, Iliceto Sabino, Badano Luigi, Aruta, P, Muraru, D, Jenei, C, Haertel Miglioranza, M, Cavalli, G, Romeo, G, Peluso, D, Cucchini, U, Iliceto, S, and Badano, L

Subjects

medicine.medical_specialty, business.industry, Functional tricuspid regurgitation, Internal medicine, medicine, Cardiology, Three dimensional echocardiography, In patient, Cardiology and Cardiovascular Medicine, business, Effective Regurgitant Orifice Area, Three-dimensional echocardiography

Published

2015

18. Three-dimensional echocardiography to assess left ventricular geometry and function.

Author

Guta, Andrada C., Badano, Luigi P., Ochoa-Jimenez, Roberto C., Genovese, Davide, Previtero, Marco, Civera, Stefania, Ruocco, Alessandro, Bettella, Natascia, Parati, Gianfranco, and Muraru, Denisa

Subjects

GEOMETRY, ECHOCARDIOGRAPHY, HEART function tests, VENTRICULAR ejection fraction, CARDIAC pacing

Abstract

Introduction: Quantification of left ventricular (LV) size and function represents the most frequent indication for an echocardiographic study. New echocardiographic techniques have been developed over the last decades in an attempt to provide a more comprehensive, accurate, and reproducible assessment of LV function.Areas covered: Although two-dimensional echocardiography (2DE) is the recommended imaging modality to evaluate the LV, three-dimensional echocardiography (3DE) has proven to be more accurate, by avoiding geometric assumptions about LV geometry, and to have incremental value for outcome prediction in comparison to conventional 2DE. LV shape (sphericity) and mass are actually measured with 3DE. Myocardial deformation analysis using 3DE can early detect subclinical LV dysfunction, before any detectable change in LV ejection fraction.Expert opinion: 3DE eliminates the errors associated with foreshortening and geometric assumptions inherent to 2DE and 3DE measurements approach very closely those obtained by CMR (the current reference modality), while maintaining the unique clinical advantage of a safe, highly cost/effective, portable imaging technique, available to the cardiologist at bedside to translate immediately the echocardiography findings into the clinical decision-making process. [ABSTRACT FROM AUTHOR]

Published

2019

19. Novel three-dimensional transoesophageal echocardiography platform allows a fast and accurate assessment of aortic annulus size and shape before transcatheter aortic valve implantation

Author

Muraru Denisa, Napodano Massimo, Badano Luigi, Tarantini Giuseppe, Sarais Cristiano, Kocabay G, Isabella G, D’Onofrio A, Gerosa G, Iliceto S, Muraru, D, Napodano, M, Badano, L, Tarantini, G, Sarais, C, Kocabay, G, Isabella, G, D’Onofrio, A, Gerosa, G, and Iliceto, S

Subjects

three-dimensional echocardiography, MED/11 - MALATTIE DELL'APPARATO CARDIOVASCOLARE

Abstract

Background: In TAVI procedures, accurate sizing of aortic annulus (AA) is paramount to avoid complications. Novel 3D transoesophageal echo (3DTOE) platform enables direct measurements on volume-rendered 3D datasets, speeding up AA sizing in the cath lab. Our aim was to validate AA measurements by novel 3DTOE against computerized tomography (CT). Methods: Minimum (Min) and maximum (Max) AA diameters, and their ratio (ellipticity index, EI) were obtained in 12 consecutive patients (9 men, aged 84 ± 4 y) who underwent pre-TAVI 2D and 3DTOE (Vivid E9 with 6VT-D probe, GE Ultrasound, N) and CT scan less than 1 week apart. Results: AA sizing required 58 ± 20 sec on 3D volume-rendered datasets and 95 ± 17 sec on multislice (MS) views (p < 0.003) (Figure). At CT, Max was 25.4 ± 2 mm, Min was 21.6 ± 2.1 mm, and EI was 1.2 ± 0.07. Accuracy of 3DTOE is reported in Table. Conventional 2D antero-posterior diameters underestimated Max in comparison to both 3D volume-rendered and MS (bias=-2.8 mm and -2.9 mm, respectively). Conclusions: AA sizing can be performed in a fast and reliable way using novel 3DTOE. Direct measurement on 3D volume-rendered seems as accurate as measuring on MS views, but significantly less time-consuming.

Published

2012

20. Quantification of the relative contribution of the different right ventricular wall motion components to right ventricular ejection fraction: the ReVISION method.

Author

Lakatos, Bálint, Tősér, Zoltán, Tokodi, Márton, Doronina, Alexandra, Kosztin, Annamária, Muraru, Denisa, Badano, Luigi P., Kovács, Attila, and Merkely, Béla

Subjects

THREE-dimensional echocardiography, RIGHT heart ventricle, LEFT heart ventricle, REOPERATION, CARDIAC imaging, PATHOLOGICAL physiology

Abstract

Three major mechanisms contribute to right ventricular (RV) pump function: (i) shortening of the longitudinal axis with traction of the tricuspid annulus towards the apex; (ii) inward movement of the RV free wall; (iii) bulging of the interventricular septum into the RV and stretching the free wall over the septum. The relative contribution of the aforementioned mechanisms to RV pump function may change in different pathological conditions.Our aim was to develop a custom method to separately assess the extent of longitudinal, radial and anteroposterior displacement of the RV walls and to quantify their relative contribution to global RV ejection fraction using 3D data sets obtained by echocardiography.Accordingly, we decomposed the movement of the exported RV beutel wall in a vertex based manner. The volumes of the beutels accounting for the RV wall motion in only one direction (either longitudinal, radial, or anteroposterior) were calculated at each time frame using the signed tetrahedron method. Then, the relative contribution of the RV wall motion along the three different directions to global RV ejection fraction was calculated either as the ratio of the given direction's ejection fraction to global ejection fraction and as the frame-by-frame RV volume change (∆V/∆t) along the three motion directions.The ReVISION (Right VentrIcular Separate wall motIon quantificatiON) method may contribute to a better understanding of the pathophysiology of RV mechanical adaptations to different loading conditions and diseases. [ABSTRACT FROM AUTHOR]

Published

2017

21. New speckle-tracking algorithm for right ventricular volume analysis from three-dimensional echocardiographic data sets: validation with cardiac magnetic resonance and comparison with the previous analysis tool.

Author

Muraru, Denisa, Spadotto, Veronica, Cecchetto, Antonella, Romeo, Gabriella, Aruta, Patrizia, Ermacora, Davide, Jenei, Csaba, Cucchini, Umberto, Iliceto, Sabino, and Badano, Luigi P.

Abstract

Aims (i) To validate a new software for right ventricular (RV) analysis by 3D echocardiography (3DE) against cardiac magnetic resonance (CMR); (ii) to assess the accuracy of different measurement approaches; and (iii) to explore any benefits vs. the previous software. Methods and results We prospectively studied with 3DE and CMR 47 patients (14-82 years, 28 men) having a wide range of RV end-diastolic volumes (EDV 82-354 mL at CMR) and ejection fractions (EF 34-81%). Multi-beat RV 3DE data setswere independently analysed with the new software using both automated and manual editing options, as well as with the previous software. RV volume reproducibility was tested in 15 random patients. RV volumes and EF measurements by the new software had an excellent accuracy (bias±SD: 215±24 mL for EDV; 1.4±4.9% for EF) and reproducibility compared with CMR, provided that the RV borders automatically tracked by software were systematically edited by operator. The automated analysis option underestimated the EDV, overestimated the ESV, and largely underestimated the EF (bias±SD: -17±10%). RV volumes measured with the new software using manual editing showed similar accuracy, but lower inter-observer variability and shorter analysis time (3-5') in comparison with the previous software. Conclusion Novel vendor-independent 3DE software enables an accurate, reproducible and faster quantitation of RV volumes and ejection fraction. Rather than optional, systematic verification of border tracking quality and manual editing are mandatory to ensure accurate 3DE measurements. These findings are relevant for echocardiography laboratories aiming to implement 3DE for RV analysis for both research and clinical purposes. [ABSTRACT FROM AUTHOR]

Published

2016

22. Relationship between mitral annulus function and mitral regurgitation severity and left atrial remodelling in patients with primary mitral regurgitation.

Author

Mihaila, Sorina, Muraru, Denisa, Haertel Miglioranza, Marcelo, Piasentini, Eleonora, Aruta, Patrizia, Cucchini, Umberto, Iliceto, Sabino, Vinereanu, Dragos, and Badano, Luigi P.

Abstract

Aims To explore the relationship between the mitral annular (MA) remodelling and dysfunction, mitral regurgitation (MR) severity, left ventricular (LV) and atrial (LA) size and function in patients with organic MR (OMR). Methods A total of 52 patients (57 ± 15 years, 31 men) with mild to severe OMR and 52 controls underwent 3D transthoracic and results echocardiography acquisitions of the mitral valve (MV), LA, and LV. MA geometry and dynamics, LVand LA volumes, LV ejection fraction (LVEF) and emptying fractions (LAEF) were assessed using dedicated software packages. LA and LV myocardial deformations were assessed using 2D speckle-tracking echocardiography. OMR patients presented larger and more spherical MA than controls during the entire systole (P < 0.001). Although the MA non-planarity at early-systole was similar between OMR and controls (157 ± 138 vs. 153 ± 128, P = NS), the MA became flatter from mid-to end-systole (153 ± 12 vs. 146 ± 108 and 157 ± 12 vs. 147 ± 88, P < 0.01) in OMR. MA area fractional change was lower in patients with OMR (22 ± 5% vs. 28 ± 5%, P < 0.001), and correlated with the MR orifice and volume (r = 20.52 and r = 20.55). MA fractional area change correlated with LA minimum and maximum volumes (r = 0.77 and r = 0.70), total and active LAEF (r = 0.72 and r = 0.76), and LA negative strain and strain rate (r = 0.52 and r = 0.57), but not with the LVEF or LV global longitudinal strain. In a multivariate regression model using LAEF and LVEF, solely active LAEF correlated with the MA fractional area change (b = 0.51, P = 0.005). Conclusion In patients with OMR, MA reduced function correlates with the MR severity and the LA size and function, but not with the LV function. [ABSTRACT FROM AUTHOR]

Published

2016

23. The use of multimodality cardiovascular imaging to assess right ventricular size and function.

Author

Surkova, Elena, Muraru, Denisa, Iliceto, Sabino, and Badano, Luigi P.

Subjects

*CARDIOVASCULAR disease diagnosis, *RIGHT heart ventricle, *CARDIAC magnetic resonance imaging, *ECHOCARDIOGRAPHY, *CARDIOMYOPATHIES, *PHYSIOLOGY, CARDIOVASCULAR disease related mortality

Abstract

Right ventricular (RV) size and function have been found to be important predictors of cardiovascular morbidity and mortality in patients with various conditions. However, non-invasive assessment of the RV is a challenging task due to its complex anatomy and location in the chest. Although cardiac magnetic resonance (CMR) is considered a “gold standard” for RV assessment, the development of novel echocardiographic techniques, including three-dimensional (3DE) and two-dimensional speckle-tracking echocardiography (2DSTE) opened new exciting opportunities in RV imaging. 3DE has proven accurate in measuring RV volumes and ejection fraction when compared with CMR while 2DSTE plays a critical role in measuring RV myocardial deformation, which is a powerful predictor of patients’ functional capacity and survival. Cardiac computed tomography provides an accurate and reproducible assessment of the RV volumes and can be considered a reliable alternative for patients who are not suitable for either echocardiography or CMR. The purpose of this review is to summarize currently available data on the role of the different noninvasive cardiac imaging modalities in assessment of RV size, function and mechanics, with an emphasis on the benefits of novel imaging techniques and on how the latter can be applied in the various clinical settings. [ABSTRACT FROM AUTHOR]

Published

2016

24. Left Atrial Volumes and Function by Three-Dimensional Echocardiography.

Author

Badano, Luigi P., Miglioranza, Marcelo H., Mihăilă, Sorina, Peluso, Diletta, Xhaxho, Jola, Marra, Martina Perazzolo, Cucchini, Umberto, Soriani, Nicola, Iliceto, Sabino, and Muraru, Denisa

Abstract

Background--Our study sought to (1) identify reference values for left atrial (LA) volumes and phasic function indices by 3-dimensional echocardiography (3DE) and compare them with those measured by 2-dimensional echocardiography (2DE) and (2) analyze their relationship with age, sex, body size, and left ventricular function. Accuracy and reproducibility of 3DE and 2DE have been also tested to evaluate the robustness of our data. Methods and Results--We obtained maximal, minimal, and preA LA volumes by 3DE and 2DE in 276 healthy volunteers (18--79 years; 57% women). Limits of normality for LA volumes and total LA emptying fraction were larger with 3DE than with 2DE (maximal LA volume: 43 versus 35 mL/m2; preA LA volume: 31 versus 25 mL/m2; minimal LA volume: 18 versus 14 mL/m2; 53 versus 48%, respectively; P<0.001). 3DE LA volumes indexed by body surface area were similar in men and women and increased with age. On multivariable analysis, age, weight, and left ventricular systolic and diastolic function indices resulted as correlates of LA 3DE indices. LA volumes were tightly correlated with cardiac magnetic resonance measurements, yet more underestimated by 2DE versus 3DE (bias±SD: -17±16 versus -7±15 mL, respectively). Among all LA parameters, maximal LA volume and total emptying fraction were the most reproducible, including at test-retest and at expert versus trainee comparisons. Conclusions--This study provides reference values for LA 3DE volumes and function from a relatively large cohort of healthy subjects with a wide age range. Our data may help clinicians to identify LA remodeling and dysfunction. [ABSTRACT FROM AUTHOR]

Published

2016

25. European Association of Cardiovascular Imaging/Cardiovascular Imaging Department of the Brazilian Society of Cardiology recommendations for the use of cardiac imaging to assess and follow patients after heart transplantation.

Author

Badano, Luigi P., Miglioranza, Marcelo H., Edvardsen, Thor, Siciliano Colafranceschi, Alexandre, Muraru, Denisa, Bacal, Fernando, Nieman, Koen, Zoppellaro, Giacomo, Marcondes Braga, Fabiana G., Binder, Thomas, Habib, Gilbert, and Lancellotti, Patrizio

Abstract

The cohort of long-term survivors of heart transplant is expanding, and the assessment of these patients requires specific knowledge of the surgical techniques employed to implant the donor heart, the physiology of the transplanted heart, complications of invasive tests routinely performed to detect graft rejection (GR), and the specific pathologies that may affect the transplanted heart. A joint EACVI/Brazilian cardiovascular imaging writing group committee has prepared these recommendations to provide a practical guide to echocardiographers involved in the follow-up of heart transplant patients and a framework for standardized and efficient use of cardiovascular imaging after heart transplant. Since the transplanted heart is smaller than the recipient's dilated heart, the former is usually located more medially in the mediastinum and tends to be rotated clockwise. Therefore, standard views with conventional two-dimensional (2D) echocardiography are often difficult to obtain generating a large variability from patient to patient. Therefore, in echocardiography laboratories equipped with three-dimensional echocardiography (3DE) scanners and specific expertise with the technique, 3DE may be a suitable alternative to conventional 2D echocardiography to assess the size and the function of cardiac chambers. 3DE measurement of left (LV) and right ventricular (RV) size and function are more accurate and reproducible than conventional 2D calculations. However, clinicians should be aware that cardiac chamber volumes obtained with 3DE cannot be compared with those obtained with 2D echocardiography. To assess cardiac chamber morphology and function during follow-up studies, it is recommended to obtain a comprehensive echocardiographic study at 6 months from the cardiac transplantation as a baseline and make a careful quantitation of cardiac chamber size, RV systolic function, both systolic and diastolic parameters of LV function, and pulmonary artery pressure. Subsequent echocardiographic studies should be interpreted in comparison with the data obtained from the 6-month study. An echocardiographic study, which shows no change from the baseline study, has a high negative predictive value for GR. There is no single systolic or diastolic parameter that can be reliably used to diagnose GR. However, in case several parameters are abnormal, the likelihoodof G R increases. When an abnormality is detected, careful revision of images of the present and baseline study (side-by-side) is highly recommended. Global longitudinal strain (GLS) is a suitable parameter to diagnose subclinical allograft dysfunction, regardless of aetiology, by comparing the changes occurring during serial evaluations. Evaluation of GLS could be used in association with endomyocardial biopsy (EMB) to characterize and monitor an acute GR or global dysfunction episode. RV size and function at baseline should be assessed using several parameters, which do not exclusively evaluate longitudinal function. At follow-up echocardiogram, all these parameters should be compared with the baseline values. 3DE may provide a more accurate and comprehensive assessment of RV size and function. Moreover, due to the unpredictable shape of the atria in transplanted patients, atrial volume should be measured using the discs' summation algorithm (biplane algorithm for the left atrium) or 3DE. Tricuspid regurgitation should be looked for and properly assessed in all echocardiographic studies. In case of significant changes in severity of tricuspid regurgitation during follow-up, a 2D/3D and colour Doppler assessment of its severity and mechanisms should be performed. Aortic and mitral valves should be evaluated according to current recommendations. Pericardial effusion should be serially evaluated regarding extent, location, and haemodynamic impact. In case of newly detected pericardial effusion, GRshould be considered taking into account the overall echocardiographic assessment and patient evaluation. Dobutamine stress echocardiography might be a suitable alternative to routine coronary angiography to assess cardiac allograft vasculopathy (CAV) at centres with adequate experience with the methodology. Coronary flow reserve and/or contrast infusion to assess myocardial perfusion might be combined with stress echocardiography to improve the accuracy of the test. In addition to its role in monitoring cardiac chamber function and in diagnosis the occurrence of GR and/or CAV, in experienced centres, echocardiography might be an alternative to fluoroscopy to guide EMB, particularly in children and young women, since echocardiography avoids repeated X-ray exposure, permits visualization of soft tissues and safer performance of biopsies of different RV regions. Finally, in addition to the indications about when and how to use echocardiography, the document also addresses the role of the other cardiovascular imaging modalities during follow-up of heart transplant patients. In patients with inadequate acoustic window and contraindication to contrast agents, pharmacological SPECT is an alternative imaging modality to detect CAV in heart transplant patients. However, in centres with adequate expertise, intravascular ultrasound (IVUS) in conjunction with coronary angiography with a baseline study at 4-6 weeks and at 1 year after heart transplant should be performed to exclude donor coronary artery disease, to detect rapidly progressive CAV, and to provide prognostic information. Despite the fact that coronary angiography is the current gold-standard method for the detection of CAV, the use of IVUS should also be considered when there is a discrepancy between non-invasive imaging tests and coronary angiography concerning the presence of CAV. In experienced centres, computerized tomography coronary angiography is a good alternative to coronary angiography to detect CAV. In patients with a persistently high heart rate, scanners that provide high temporal resolution, such as dual-source systems, provide better image quality. Finally, in patients with insufficient acoustic window, cardiac magnetic resonance is an alternative to echocardiography to assess cardiac chamber volumes and function and to exclude acute GR and CAV in a surveillance protocol. [ABSTRACT FROM AUTHOR]

Published

2015

26. Role of Three-Dimensional Echocardiography in Structural Complications after Acute Myocardial Infarction.

Author

Ermacora, Davide, Muraru, Denisa, Pontarollo, Sara, Casablanca, Simona, Livi, Ugolino, Iliceto, Sabino, and Badano, Luigi P.

Subjects

*MYOCARDIAL infarction complications, *ORGAN rupture, *ECHOCARDIOGRAPHY, *DIAGNOSIS

Abstract

Three-dimensional echocardiography (3 DE) is a unique cardiovascular imaging modality in terms of: ability to provide realistic anatomical views of cardiac structures in the beating heart and possibility to visualize cardiac structures from any desired perspective. Therefore, 3 DE is emerging as an accurate imaging modality for a prompt diagnosis and detailed anatomical description of structural complications ( SC) of acute myocardial infarction ( AMI). We report 3 emblematic cases which show how both the transthoracic ( TTE) and transesophageal ( TEE) 3D imaging can provide precise anatomic information useful to address management of SC in AMI patients: (1) detailed assessment of size, location, and morphology of an apical ventricular septal defect (VSD) obtained with 3DTTE was pivotal in referring the patient to percutaneous closure of it; (2) size and location of a complex inferior VSD with irregular margins advised against percutaneous closure; and (3) 3DTEE assisted surgeons to choose between reparative or replacement surgery for an acute mitral regurgitation due to complete papillary muscle rupture. [ABSTRACT FROM AUTHOR]

Published

2014

27. Right atrial size and function assessed with three-dimensional and speckle-tracking echocardiography in 200 healthy volunteers.

Author

Peluso, Diletta, Badano, Luigi P., Muraru, Denisa, Dal Bianco, Lucia, Cucchini, Umberto, Kocabay, Gonenc, Kovàcs, Attila, Casablanca, Simona, and Iliceto, Sabino

Subjects

HEART failure, MYOCARDIUM physiology, ECHOCARDIOGRAPHY, DIAGNOSTIC imaging, RIGHT heart atrium, HEART beat, RESEARCH evaluation, STATURE, VOLUNTEERS, DATA analysis, BODY mass index, INTER-observer reliability, HUMAN research subjects, PATIENT selection, BODY surface area, DESCRIPTIVE statistics, PHYSIOLOGY, ANATOMY, DIAGNOSIS

Abstract

Aims Right atrial (RA) size predicts the outcome in some pathological conditions but reference values for RA volumes and myocardial function remain to be defined. Thus, we used two-dimensional speckle-tracking echocardiography (2D-STE) and three-dimensional echocardiography (3DE) to define normative reference values of RA volumes and function. Methods and results Two hundreds healthy volunteers (43 ± 15 years, range 18–75; 44% men) underwent two-dimensional echocardiography (2DE) to obtain RA volumes and longitudinal strain (LS) of RA wall using 2D-STE, and 3DE to measure maximal (Vmax), minimal, and preA volumes to calculate total, passive, and active emptying volumes (TotEV, PassEV, and ActEV) and emptying fractions (TotEF, PassEF, and ActEF). Three-dimensional echocardiography volumes (Vmax, 52 ± 15 mL vs. 41 ± 14 mL), EVs (TotEV, 33 ± 10 mL vs. 24 ± 9 mL), and EFs (TotEF, 63 ± 9 vs. 58 ± 9%) were larger than 2DE ones (all P < 0.0001). Indexed 3D volumes were significantly larger in men than in women. RA TotEF correlated with total LS (r = 0.24, P = 0.025) and PassEF with positive LS (LSpos; r = 0.34, P < 0.0001). Ageing was associated with a decrease in passive (LSpos, r = −041; PassEV, r = −0.26; PassEF, r = −0.38; all P < 0.0001) and an increase in active RA function (negative LS, r = 0.34; ActEV, r = 0.25; all P < 0.0001; and ActEF, r = 0.15; P = 0.035) in order to maintain TotEV (r = −0.14, P = 0.05). Conclusion Our study provides normative values for RA volumes and function measured by 3DE and 2D-STE in a relatively large cohort of healthy subjects with a wide age range. These data will help clinicians to identify RA remodelling and dysfunction. [ABSTRACT FROM PUBLISHER]

Published

2013

28. Use of three-dimensional speckle tracking to assess left ventricular myocardial mechanics: inter-vendor consistency and reproducibility of strain measurements.

Author

Badano, Luigi P., Cucchini, Umberto, Muraru, Denisa, Al Nono, Osama, Sarais, Cristiano, and Iliceto, Sabino

Subjects

ECHOCARDIOGRAPHY, STATISTICAL correlation, CARDIAC contraction, LEFT heart ventricle, HEART physiology, RESEARCH evaluation, STATISTICS, T-test (Statistics), EQUIPMENT & supplies, INTER-observer reliability, RESEARCH methodology evaluation, DATA analysis software, DESCRIPTIVE statistics

Abstract

Aims Since there is insufficient data available about the inter-vendor consistency of three-dimensional (3D) speckle-tracking (STE) measurements, we undertook this study to (i) assess the inter-vendor consistency of 3D LV global strain values obtained using two different scanners; (ii) identify the sources of inter-vendor inconsistencies, if any; and (iii) compare their respective intrinsic variability. Methods and results Sixty patients (38 ± 12 years, 64% males) with a wide range of LV end-diastolic volumes (from 74 to 205 ml) and ejection fractions (from 17 to 70%) underwent two 3D LV data set acquisitions using VividE9 and Artida ultrasound systems. Global longitudinal (Lɛ), radial (Rɛ), circumferential (Cɛ) and area (Aɛ) strain values were obtained offline using the corresponding 3D STE softwares. Despite being significantly different, Lɛ showed the closest values between the two platforms (bias = 1.5%, limits of agreement (LOA) from −2.9 to −5.9%, P < 0.05). Artida produced significantly higher values of both Cɛ and Aɛ than VividE9 (bias = 6.6, LOA: −14.1 to 0.9%, and bias = 6.0, LOA = −28.2–8.6%, respectively, P < 0.001). Conversely, Rɛ values obtained with Artida were significantly lower than those measured using VividE9 platform (bias = −24.2, LOA: 1.5–49.9, P < 0.001). All strain components showed good reproducibility (intra-class correlation coefficients: 0.82–0.98), except for Rɛ by Artida, which showed only a moderate reproducibility. Conclusion Apart from Lɛ, the inter-vendor agreement of Rɛ, Cɛ and Aɛ measured with Artida and VividE9 was poor. Reference values should be specific for each system and baseline and follow-up data in longitudinal studies should be obtained using the same 3D STE platform. [ABSTRACT FROM PUBLISHER]

Published

2013

29. Quantitation of cardiac chamber geometry and function using transthoracic three-dimensional echocardiography.

Author

Muraru, Denisa, Boccalini, Francesca, Cattarina, Maria, Peluso, Diletta, Dal Bianco, Lucia, Zoppellaro, Giacomo, Segafredo, Beatrice, Nour, Angelica, Sarais, Cristiano, and Badano, Luigi P.

Subjects

HEART anatomy, MEDICAL imaging systems, THREE-dimensional imaging, ECHOCARDIOGRAPHY, CARDIAC magnetic resonance imaging, LEFT heart ventricle, TWO-dimensional echocardiography

Abstract

Copyright of Journal of Cardiovascular Echography is the property of Wolters Kluwer India Pvt Ltd and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2012

30. Assessment of aortic valve complex by three-dimensional echocardiography: a framework for its effective application in clinical practice.

Author

Muraru, Denisa, Badano, Luigi P., Vannan, Mani, and Iliceto, Sabino

Subjects

CORONARY artery stenosis, AORTIC valve insufficiency, AORTIC valve abnormalities, AORTIC valve diseases, AORTIC valve, ECHOCARDIOGRAPHY, MYOCARDIAL revascularization, TRANSESOPHAGEAL echocardiography, TRANSLUMINAL angioplasty, ANATOMY, DIAGNOSIS

Abstract

In the current era of expanding catheter-based and complex repair procedures to treat aortic valve (AV) diseases, growing consideration is being given to understanding the functional anatomy of the AV complex. Echocardiography is the primary imaging modality to assess and follow-up AV diseases, and the recent three-dimensional (3D) capabilities allow clinicians to appreciate the functional complexity of the aortic root in the beating heart. Despite being subject to several limitations, 3D echocardiography (3DE) holds promise as a more suitable imaging backup for aortic interventions of mounting complexity and for circumventing some of their current complications. In this review, we discuss the key principles of 3DE for assessing the AV pathology and the incremental clinical benefits in comparison with conventional 2DE and Doppler echocardiography, justifying its implementation in the diagnostic workup of aortic diseases. In view of an effective clinical use, a brief section is dedicated to the acquisition modalities, display, and interpretation of various abnormalities by 3DE. [ABSTRACT FROM AUTHOR]

Published

2012

31. Validation of a novel automated border-detection algorithm for rapid and accurate quantitation of left ventricular volumes based on three-dimensional echocardiography.

Author

Muraru, Denisa, Badano, Luigi P., Piccoli, Gianluca, Gianfagna, Pasquale, Del Mestre, Lorenzo, Ermacora, Davide, and Proclemer, Alessandro

Abstract

Aims: To assess the accuracy and reproducibility of a novel automated software for left ventricular (LV) volumes and ejection fraction (EF) measurements using real-time three-dimensional echocardiography (3DE). [ABSTRACT FROM PUBLISHER]

Published

2010

32. Right ventricle in pulmonary arterial hypertension: haemodynamics, structural changes, imaging, and proposal of a study protocol aimed to assess remodelling and treatment effects.

Author

Badano, Luigi P., Ginghina, Carmen, Easaw, Jacob, Muraru, Denisa, Grillo, Maria T., Lancellotti, Patrizio, Pinamonti, Bruno, Coghlan, Gerry, Marra, Martina Perazzolo, Popescu, Bogdan A., and De Vita, Salvatore

Abstract

Although right ventricular (RV) failure is the main cause of death in patients with pulmonary arterial hypertension (PAH), there is insufficient data about the effects of PAH treatment on RV geometry and function mainly because the RV assessment has been hampered by its complex crescentic shape, large infundibulum, and its trabecular nature. Echocardiography is a widely available imaging technique particularly suitable for follow-up studies, because of its non-invasive nature, low cost, and lack of ionizing radiation or radioactive agent. Real-time three-dimensional echocardiography (RT3DE) has been shown to be accurate in assessing RV and left ventricular (LV) volumes, stroke volumes, and ejection fractions in comparison with cardiac magnetic resonance imaging. In this review, we describe RV structural and functional changes which occur in patients with PAH and strengths and weaknesses of current non-invasive imaging techniques to assess them. Finally, we describe an ongoing multicentre, prospective observational study involving seven centres expert in treating patients with PAH from four different countries. Investigators will use conventional and advanced echo parameters from RT3DE and speckle-tracking echocardiography to assess the extent of LV and RV remodelling before symptom onset and during pharmacological treatment in patients with PAH. Seventy patients who will survive for at least 1 year will be recruited. All the participating institutions will perform comprehensive standard 2D and Doppler as well as RT3DE examinations with a pre-defined imaging protocol. Measurements will be performed at the core echocardiography laboratory by experienced observers who will be unaware of each patient's treatment assignment and whether the examination was a baseline or a follow-up study. Enrolment duration is expected to be 1 year. [ABSTRACT FROM PUBLISHER]

Published

2010

33. Atrial Functional Tricuspid Regurgitation as a Distinct Pathophysiological and Clinical Entity: No Idiopathic Tricuspid Regurgitation Anymore.

Author

Florescu, Diana R., Muraru, Denisa, Volpato, Valentina, Gavazzoni, Mara, Caravita, Sergio, Tomaselli, Michele, Ciampi, Pellegrino, Florescu, Cristina, Bălșeanu, Tudor A., Parati, Gianfranco, and Badano, Luigi P.

Subjects

*TRICUSPID valve, *ATRIAL fibrillation, *TRICUSPID valve insufficiency, *PAMPHLETS, *PATHOLOGICAL physiology

Abstract

Functional tricuspid regurgitation (FTR) is a strong and independent predictor of patient morbidity and mortality if left untreated. The development of transcatheter procedures to either repair or replace the tricuspid valve (TV) has fueled the interest in the pathophysiology, severity assessment, and clinical consequences of FTR. FTR has been considered to be secondary to tricuspid annulus (TA) dilation and leaflet tethering, associated to right ventricular (RV) dilation and/or dysfunction (the "classical", ventricular form of FTR, V-FTR) for a long time. Atrial FTR (A-FTR) has recently emerged as a distinct pathophysiological entity. A-FTR typically occurs in patients with persistent/permanent atrial fibrillation, in whom an imbalance between the TA and leaflet areas results in leaflets malcoaptation, associated with the dilation and loss of the sphincter-like function of the TA, due to right atrium enlargement and dysfunction. According to its distinct pathophysiology, A-FTR poses different needs of clinical management, and the various interventional treatment options will likely have different outcomes than in V-FTR patients. This review aims to provide an insight into the anatomy of the TV, and the distinct pathophysiology of A-FTR, which are key concepts to understanding the objectives of therapy, the choice of transcatheter TV interventions, and to properly use pre-, intra-, and post-procedural imaging. [ABSTRACT FROM AUTHOR]

Published

2022

34. The Normal Mitral Valve

Author

Baldea, Sorina Mihaila, Vinereanu, Dragos, Lang, Roberto M., Badano, Luigi P., editor, Lang, Roberto M., editor, and Muraru, Denisa, editor

Published

2019

35. Technical Principles of Transesophageal Three-Dimensional Echocardiography

Author

Vieira, Marcelo Luiz Campos, Ronderos, Ricardo Ernesto, Badano, Luigi P., editor, Lang, Roberto M., editor, and Muraru, Denisa, editor

Published

2019

36. X-Ray-Echo Fusion Imaging in Catheter-Based Structural Heart Disease Interventions

Author

Faletra, Francesco Fulvio, Pedrazzini, Giovanni, Pasotti, Elena, Moccetti, Marco, Moccetti, Tiziano, Monaghan, Mark J., Badano, Luigi P., editor, Lang, Roberto M., editor, and Muraru, Denisa, editor

Published

2019

37. Assessment After Surgery or Interventional Procedures on the Tricuspid Valve

Author

Badano, Luigi P., Rabischoffsky, Arnaldo, Previtero, Marco, Ochoa-Jimenez, Roberto Carlos, Badano, Luigi P., editor, Lang, Roberto M., editor, and Muraru, Denisa, editor

Published

2019

38. The Right Atrium

Author

Peluso, Diletta, Miglioranza, Marcelo Haertel, Badano, Luigi P., editor, Lang, Roberto M., editor, and Muraru, Denisa, editor

Published

2019

39. Tricuspid Valve: Congenital Abnormalities and Stenosis

Author

Jone, Pei-Ni, Kutty, Shelby, Badano, Luigi P., editor, Lang, Roberto M., editor, and Muraru, Denisa, editor

Published

2019

40. Aortic Regurgitation

Author

Baldea, Sorina Mihaila, Vinereanu, Dragos, Badano, Luigi P., Badano, Luigi P., editor, Lang, Roberto M., editor, and Muraru, Denisa, editor

Published

2019

41. Left Atrium

Author

Tsang, Wendy, Spencer, Kirk T., Lang, Roberto M., Badano, Luigi P., editor, Lang, Roberto M., editor, and Muraru, Denisa, editor

Published

2019

42. Functional Mitral Regurgitation

Author

Tan, Timothy C., Zeng, Xin, Hung, Judy, Badano, Luigi P., editor, Lang, Roberto M., editor, and Muraru, Denisa, editor

Published

2019

43. Atrial functional tricuspid regurgitation: a novel and underappreciated clinical entity.

Author

Florescu, Diana-Ruxandra, Figliozzi, Stefano, Guta, Andrada, Vicini, Stefano, Tomaselli, Michele, Târtea, Georgică Costinel, Istrătoaie, Octavian, Parati, Gianfranco, Badano, Luigi, and Muraru, Denisa

Subjects

*TRICUSPID valve insufficiency, *TRICUSPID valve, *MITRAL valve insufficiency, *ATRIAL fibrillation, *ELECTRIC countershock

Abstract

Functional or secondary tricuspid regurgitation (FTR) is a progressive disease with a significant negative impact on patient morbidity and mortality. Recently, atrial fibrillation (AF) has been recognized as a cause of FTR (with/without coexisting functional mitral regurgitation) by promoting right atrial (RA) remodeling and secondary tricuspid valve (TV) annulus dilation, even in the absence of right ventricular (RV) dilation or dysfunction. This distinct form of FTR has been called "atriogenic" or "atrial". Recent evidence suggests that the RA is an important player in FTR pathophysiology not only for patients with AF, but also for those in sinus rhythm. Preliminary reports on atrial FTR show that cardioversion with documented maintenance of sinus rhythm promotes TV annulus and RA reverse remodeling and may significantly reduce FTR severity at follow-up. Large-scale studies on the prognostic benefits of rhythm vs rate-control strategy in atrial FTR patients are needed to substantiate specific guidelines indications for this subset of patients. [ABSTRACT FROM AUTHOR]

Published

2021

44. The role of three-dimensional echocardiography for the clinical diagnosis and management of mitral valve disease.

Author

Guta, Andrada-Camelia, Ochoa-Jimenez, Roberto Carlos, Aruta, Patrizia, Baldea, Sorina Mihaila, Bartos, Daniela, Popescu, Bogdan Alexandru, Badano, Luigi Paolo, and Muraru, Denisa

Subjects

*MITRAL valve, *ECHOCARDIOGRAPHY, *VALVES, *ANATOMY

Abstract

Echocardiography plays a central role in the characterization of the mitral valve (MV) morphology and function. In the past decade, the development of three-dimensional echocardiography (3DE) has revolutionized valvular imaging, becoming the technique of choice for an accurate evaluation of the MV anatomy and pathophysiology. Transthoracic and transoesophageal 3DE represent complementary imaging techniques to assess the complex MV apparatus in the beating heart, to plan interventions, to monitor transcatheter procedures (e.g. MitraClip, mitral valve balloon valvuloplasty, and paravalvular leak closure) and to assess the results of surgical repair. The aim of this article is to review the contribution of 3DE in evaluating the anatomy and function of the MV apparatus in a variety of MV diseases, highlighting the current clinical applications of this essential echocardiography technique. [ABSTRACT FROM AUTHOR]

Published

2018

45. Role of new echocardiographic techniques in the detection of cancer treatment-related cardiac dysfunction. Current status and further perspectives.

Author

Cherata, Diana Alexandra, Badano, Luigi Paolo, Carstea, Doina, and Muraru, Denisa

Subjects

*ECHOCARDIOGRAPHY, *CANCER treatment, *VENTRICULAR ejection fraction

Abstract

Despite cancer therapeutics-related cardiac dysfunction (CTRCD) can be initially asymptomatic, if not detected and properly managed, it may progress to severe and irreversible heart failure. Therefore, identifi cation of high-risk patients and early detection of subclinical myocardial dysfunction are fundamental tasks for the management of cancer patients undergoing chemo- and/or radiotherapy, involving both cardiologists and oncologists. Although systematic and periodical assessment of left ventricular ejection fraction (LVEF) by two-dimensional echocardiography (2DE) is conventionally used to monitor LV function during and after chemotherapy, three-dimensional echocardiography (3DE) has been reported to have the best accuracy and reproducibility for LVEF assessment, when compared to cardiac magnetic resonance (CMR). However, LVEF reduction occurs at late and often irreversible stages of CTRCD. Conversely, measurement of LV myocardial deformation by two-dimensional speckle tracking (2DSTE), and particularly measurement of LV global longitudinal strain (GLS) has demonstrated to identify CTRCD at early stages, when LVEF is still normal. Accordingly, baseline and periodical evaluation of GLS have now been introduced by the current recommendations regarding cardiac monitoring of cancer patients. The purpose of this review is to summarize currently available evidences on the role of the different echocardiographic techniques to monitor LV function in cancer patients treated with potentially cardiotoxic chemotherapeutics with an emphasis on the benefits of novel imaging techniques and on how the latter can be applied in the various clinical settings. [ABSTRACT FROM AUTHOR]

Published

2016

46. How to Implement Three-Dimensional Echocardiography in the Routine of the Echocardiography Laboratory

Author

Denisa Muraru, Luigi P. Badano, Badano Luigi, Lang Roberto M., Muraru Denisa, Muraru, D, and Badano, L

Subjects

Beating heart, Computer science, business.industry, Cost effectiveness, workflow, 3D reconstruction, Perspective (graphical), Ultrasound, Three dimensional echocardiography, MED/11 - MALATTIE DELL'APPARATO CARDIOVASCOLARE, Three-dimensional echocardiography, Temporal resolution, Cardiac chamber, business, Biomedical engineering

Abstract

The advent of three-dimensional echocardiography (3DE) represented a real breakthrough in cardiovascular ultrasound. Major advancements in computer and transducer technology allow to acquire 3D data sets with adequate spatial and temporal resolution for assessing the functional anatomy of cardiac structures in most of cardiac pathologies. Compared to conventional two-dimensional echocardiographic (2DE) imaging, 3DE allows the operator to visualize the cardiac structures from virtually any perspective, providing a more anatomically sound and intuitive display, as well as an accurate quantitative evaluation of anatomy and function of heart valves. In addition, 3DE overcomes geometric assumptions and enables an accurate quantitative and reproducible evaluation of cardiac chambers, thus offering solid elements for patient management. Furthermore, 3DE is the only imaging technique based on volumetric scanning able to show moving structures in the beating heart, in contrast to cardiac magnetic resonance (CMR) or cardiac computed tomography (CT), which are based on post-acquisition 3D reconstruction from multiple tomographic images and displaying only 3D rendered snapshots.

Published

2019