Sachin Hansalia scite author profile

We studied 13 patients with valvular vegetations who underwent intraoperative live/real time three-dimensional transesophageal echocardiography (3DTEE) and real time two-dimensional transesophageal echocardiography (2DTEE). The 3DTEE provided incremental value on top of 2DTEE in its ability to accurately identify and localize vegetations and in identifying complications of infective endocarditis such as abscesses, perforations, and ruptured chordae. By using 3DTEE, we were able to measure vegetation volumes, perforation areas, and estimate the area of the valve that is involved in the infective process. These preliminary results suggest the superiority of 3DTEE over 2DTEE in the evaluation of valvular vegetations and provide incremental knowledge that is useful to the cardiac surgeons.

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Comparison of Real Time Two‐Dimensional with Live/Real Time Three‐Dimensional Transesophageal Echocardiography in the Evaluation of Mitral Valve Prolapse and Chordae Rupture

Manda

Kesanolla

Hsuing

et al. 2008

Echocardiography

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We compared live/real time three-dimensional transesophageal echocardiography (3D TEE) with real time two-dimensional transesophageal echocardiography (2D TEE) in the assessment of individual mitral valve (MV) segment/scallop prolapse and associated chordae rupture in 18 adult patients with a flail MV undergoing surgery for mitral regurgitation. 2D TEE was able to diagnose the prolapsing segment/scallop and associated chordae rupture correctly in only 9 of 18 patients when compared to surgery. In three of these, 2D TEE diagnosed an additional segment/scallop not confirmed at surgery. In the remaining nine patients, surgical findings were missed by 2D TEE. On the other hand with 3D TEE, the prolapsed segment/scallop and associated ruptured chords correlated exactly with the surgical findings in the operating room in 16 of 18 patients. The exceptions were two patients. In one, 3D TEE diagnosed prolapse and ruptured chordae of the A3 segment and P3 scallop, while the surgical finding was chordae rupture of the A3 segment but only prolapse without chordae rupture of the P3 scallop. In the other patient, 3D TEE diagnosed prolapse and chordae rupture of P1 scallop and prolapse without chordae rupture of the A1 and A2 segments, while at surgery chordae rupture involved A1, A2, and P1. This preliminary study demonstrates the superiority of 3D TEE over 2D TEE in the evaluation of individual MV segment/scallop prolapse and associated ruptured chordae.

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Live/Real Time Three‐Dimensional Transthoracic Echocardiographic Assessment of Pulmonary Regurgitation

et al. 2008

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There is no gold standard for the measurement of pulmonary regurgitation (PR) severity. Two-dimensional (2D) transthoracic echocardiography is most commonly used to quantify PR severity using color Doppler criteria for aortic regurgitation. However, this method is limited by visualization of only one or two dimensions of the proximal PR jet or vena contracta (VC) precluding accurate assessment of its shape or size. This limitation would be expected to be obviated by three-dimensional (3D) transthoracic echocardiography, which could provide a more accurate quantitative assessment of PR severity. This study evaluated 82 adult patients with PR using 2D and 3D. PR VC area by 3D was obtained by planimetry by positioning the cropping plane exactly parallel to the VC, which was viewed en face by cropping of the 3D data set. Regurgitant volumes were calculated by 2D (assuming a circular VC) and by 3D as a product of the VC and velocity time integral obtained by color Doppler-guided conventional Doppler interrogation of the PR jet.The 3D VC area correlated with 2D jet width (JW)/right ventricular outflow tract (RVOT) width (r = 0.71) and 2D VC area (r = 0.79). 3D JW/RVOT width correlated with 2D JW/RVOT (r = 0.87). 3D regurgitant volumes also correlated with 2D regurgitant volumes (r = 0.76). The 3D VC values of <0.20, 0.20-0.45, 0.46-1.15, and >1.15 cm(2) and regurgitant volumes of <15 ml, 15-50 ml, 51-115 ml, and >115 ml were effective as cutoffs for grades 1, 2, 3, and 4 PR, respectively. In conclusion, quantification of 3D VC area and regurgitant volumes correlate reasonably well with the current 2D methods for measurement of PR. Since 3D visualizes PR VC in three dimensions, it would be expected to provide a more accurate and more quantitative assessment of PR severity as compared to 2D.

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Usefulness of Live/Real Time Three‐Dimensional Transthoracic Echocardiography in Diagnosing Acquired Left Ventricular‐Right Atrial Communication Misdiagnosed as Severe Pulmonary Hypertension by Two‐Dimensional Transthoracic Echocardiography

et al. 2009

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Correlation Between Serum Cardiac Markers and Myocardial Infarct Size Quantified by Myocardial Perfusion Imaging in Patients With Hypertrophic Cardiomyopathy After Alcohol Septal Ablation

Hage

Aqel

AlJaroudi

et al. 2010

The American Journal of Cardiology

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Sachin Hansalia

The Value of Live/Real Time Three‐Dimensional Transesophageal Echocardiography in the Assessment of Valvular Vegetations

Comparison of Real Time Two‐Dimensional with Live/Real Time Three‐Dimensional Transesophageal Echocardiography in the Evaluation of Mitral Valve Prolapse and Chordae Rupture

Live/Real Time Three‐Dimensional Transthoracic Echocardiographic Assessment of Pulmonary Regurgitation

Usefulness of Live/Real Time Three‐Dimensional Transthoracic Echocardiography in Diagnosing Acquired Left Ventricular‐Right Atrial Communication Misdiagnosed as Severe Pulmonary Hypertension by Two‐Dimensional Transthoracic Echocardiography

Correlation Between Serum Cardiac Markers and Myocardial Infarct Size Quantified by Myocardial Perfusion Imaging in Patients With Hypertrophic Cardiomyopathy After Alcohol Septal Ablation

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